TSTP Solution File: MGT035+1 by SPASS---3.9
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- Process Solution
%------------------------------------------------------------------------------
% File : SPASS---3.9
% Problem : MGT035+1 : TPTP v8.1.0. Released v2.0.0.
% Transfm : none
% Format : tptp
% Command : run_spass %d %s
% Computer : n019.cluster.edu
% Model : x86_64 x86_64
% CPU : Intel(R) Xeon(R) CPU E5-2620 v4 2.10GHz
% Memory : 8042.1875MB
% OS : Linux 3.10.0-693.el7.x86_64
% CPULimit : 300s
% WCLimit : 600s
% DateTime : Sun Jul 17 22:26:20 EDT 2022
% Result : Theorem 0.69s 0.88s
% Output : Refutation 0.72s
% Verified :
% SZS Type : -
% Comments :
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.04/0.13 % Problem : MGT035+1 : TPTP v8.1.0. Released v2.0.0.
% 0.13/0.14 % Command : run_spass %d %s
% 0.14/0.35 % Computer : n019.cluster.edu
% 0.14/0.35 % Model : x86_64 x86_64
% 0.14/0.35 % CPU : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.14/0.35 % Memory : 8042.1875MB
% 0.14/0.35 % OS : Linux 3.10.0-693.el7.x86_64
% 0.14/0.35 % CPULimit : 300
% 0.14/0.35 % WCLimit : 600
% 0.14/0.35 % DateTime : Thu Jun 9 11:13:25 EDT 2022
% 0.14/0.35 % CPUTime :
% 0.69/0.88
% 0.69/0.88 SPASS V 3.9
% 0.69/0.88 SPASS beiseite: Proof found.
% 0.69/0.88 % SZS status Theorem
% 0.69/0.88 Problem: /export/starexec/sandbox/benchmark/theBenchmark.p
% 0.69/0.88 SPASS derived 3567 clauses, backtracked 1209 clauses, performed 52 splits and kept 2215 clauses.
% 0.69/0.88 SPASS allocated 100883 KBytes.
% 0.69/0.88 SPASS spent 0:00:00.51 on the problem.
% 0.69/0.88 0:00:00.03 for the input.
% 0.69/0.88 0:00:00.04 for the FLOTTER CNF translation.
% 0.69/0.88 0:00:00.09 for inferences.
% 0.69/0.88 0:00:00.01 for the backtracking.
% 0.69/0.88 0:00:00.29 for the reduction.
% 0.69/0.88
% 0.69/0.88
% 0.69/0.88 Here is a proof with depth 19, length 832 :
% 0.69/0.88 % SZS output start Refutation
% 0.69/0.88 1[0:Inp] || -> environment(skc1)*.
% 0.69/0.88 2[0:Inp] || -> stable(skc1)*.
% 0.69/0.88 3[0:Inp] || outcompetes(efficient_producers,first_movers,skf3(u))* -> .
% 0.69/0.88 4[0:Inp] || greater(u,v) -> greater_or_equal(u,v)*.
% 0.69/0.88 5[0:Inp] || equal(u,v) -> greater_or_equal(u,v)*.
% 0.69/0.88 6[0:Inp] || in_environment(skc1,u) -> greater_or_equal(skf3(u),u)*.
% 0.69/0.88 7[0:Inp] SkP0(u) || -> equal(growth_rate(first_movers,u),zero)**.
% 0.69/0.88 8[0:Inp] SkP0(u) || -> equal(growth_rate(efficient_producers,u),zero)**.
% 0.69/0.88 9[0:Inp] SkP1(u) || -> greater(growth_rate(first_movers,u),zero)*l.
% 0.69/0.88 10[0:Inp] SkP1(u) || -> greater(zero,growth_rate(efficient_producers,u))*r.
% 0.69/0.88 11[0:Inp] || in_environment(skc1,u) -> subpopulations(first_movers,efficient_producers,skc1,skf3(u))*.
% 0.69/0.88 12[0:Inp] || greater_or_equal(u,v)* -> equal(u,v) greater(u,v).
% 0.69/0.88 13[0:Inp] stable(u) environment(u) || -> in_environment(u,skf5(u))*.
% 0.69/0.88 14[0:Inp] stable(u) environment(u) || -> in_environment(u,skf6(u))*.
% 0.69/0.88 15[0:Inp] || greater(u,v)* greater(v,w)* -> greater(u,w)*.
% 0.69/0.88 16[0:Inp] stable(u) environment(u) || -> greater_or_equal(skf6(u),equilibrium(u))*.
% 0.69/0.88 17[0:Inp] || in_environment(u,v)*+ in_environment(u,w)* -> greater(v,w)* equal(v,w) greater(w,v)*.
% 0.69/0.88 20[0:Inp] environment(u) || greater_or_equal(v,equilibrium(u)) subpopulations(first_movers,efficient_producers,u,v)* -> SkP0(v) SkP1(v) greater(zero,growth_rate(first_movers,v)).
% 0.69/0.88 21[0:Inp] environment(u) || greater_or_equal(v,equilibrium(u)) subpopulations(first_movers,efficient_producers,u,v)* -> SkP0(v) SkP1(v) greater(growth_rate(efficient_producers,v),zero).
% 0.69/0.88 22[0:Inp] stable(u) environment(u) || greater_or_equal(v,skf5(u)) subpopulations(first_movers,efficient_producers,u,v)* -> greater(growth_rate(efficient_producers,v),growth_rate(first_movers,v)).
% 0.69/0.88 23[0:Inp] environment(u) || greater(zero,growth_rate(v,w))+ greater_or_equal(growth_rate(x,w),zero)* subpopulations(v,x,u,w)* -> outcompetes(x,v,w).
% 0.69/0.88 25[0:Res:2.0,16.1] environment(skc1) || -> greater_or_equal(skf6(skc1),equilibrium(skc1))*.
% 0.69/0.88 26[0:Res:2.0,13.1] environment(skc1) || -> in_environment(skc1,skf5(skc1))*.
% 0.69/0.88 27[0:Res:2.0,14.1] environment(skc1) || -> in_environment(skc1,skf6(skc1))*.
% 0.69/0.88 28[0:Res:1.0,23.0] || greater(zero,growth_rate(u,v))+ greater_or_equal(growth_rate(w,v),zero)* subpopulations(u,w,skc1,v)* -> outcompetes(w,u,v).
% 0.69/0.88 29[0:Res:1.0,22.0] stable(skc1) || subpopulations(first_movers,efficient_producers,skc1,u)* greater_or_equal(u,skf5(skc1)) -> greater(growth_rate(efficient_producers,u),growth_rate(first_movers,u)).
% 0.69/0.88 38[0:MRR:26.0,1.0] || -> in_environment(skc1,skf5(skc1))*.
% 0.69/0.88 39[0:MRR:27.0,1.0] || -> in_environment(skc1,skf6(skc1))*.
% 0.69/0.88 40[0:MRR:25.0,1.0] || -> greater_or_equal(skf6(skc1),equilibrium(skc1))*.
% 0.69/0.88 41[0:MRR:29.0,2.0] || greater_or_equal(u,skf5(skc1)) subpopulations(first_movers,efficient_producers,skc1,u)* -> greater(growth_rate(efficient_producers,u),growth_rate(first_movers,u)).
% 0.69/0.88 51[0:Res:40.0,12.0] || -> equal(skf6(skc1),equilibrium(skc1)) greater(skf6(skc1),equilibrium(skc1))*l.
% 0.69/0.88 52[0:Res:16.2,12.0] stable(u) environment(u) || -> equal(skf6(u),equilibrium(u)) greater(skf6(u),equilibrium(u))*l.
% 0.69/0.88 55[0:Res:6.1,12.0] || in_environment(skc1,u)* -> equal(skf3(u),u) greater(skf3(u),u).
% 0.69/0.88 57[1:Spt:51.0] || -> equal(skf6(skc1),equilibrium(skc1))**.
% 0.69/0.88 58[1:Rew:57.0,39.0] || -> in_environment(skc1,equilibrium(skc1))*.
% 0.69/0.88 66[0:Res:38.0,55.0] || -> equal(skf3(skf5(skc1)),skf5(skc1)) greater(skf3(skf5(skc1)),skf5(skc1))*l.
% 0.69/0.88 67[1:Res:58.0,55.0] || -> equal(skf3(equilibrium(skc1)),equilibrium(skc1)) greater(skf3(equilibrium(skc1)),equilibrium(skc1))*l.
% 0.69/0.88 68[0:Res:14.2,55.0] stable(skc1) environment(skc1) || -> equal(skf3(skf6(skc1)),skf6(skc1)) greater(skf3(skf6(skc1)),skf6(skc1))*l.
% 0.69/0.88 72[0:Res:38.0,17.0] || in_environment(skc1,u)* -> greater(skf5(skc1),u) equal(skf5(skc1),u) greater(u,skf5(skc1)).
% 0.69/0.88 73[1:Res:58.0,17.0] || in_environment(skc1,u)* -> greater(equilibrium(skc1),u) equal(equilibrium(skc1),u) greater(u,equilibrium(skc1)).
% 0.69/0.88 77[0:Res:11.1,41.1] || in_environment(skc1,u) greater_or_equal(skf3(u),skf5(skc1))* -> greater(growth_rate(efficient_producers,skf3(u)),growth_rate(first_movers,skf3(u))).
% 0.69/0.88 78[0:Res:4.1,77.1] || greater(skf3(u),skf5(skc1)) in_environment(skc1,u) -> greater(growth_rate(efficient_producers,skf3(u)),growth_rate(first_movers,skf3(u)))*l.
% 0.69/0.88 79[0:Res:5.1,77.1] || equal(skf3(u),skf5(skc1)) in_environment(skc1,u) -> greater(growth_rate(efficient_producers,skf3(u)),growth_rate(first_movers,skf3(u)))*l.
% 0.69/0.88 80[0:Res:6.1,77.1] || in_environment(skc1,skf5(skc1)) in_environment(skc1,skf5(skc1)) -> greater(growth_rate(efficient_producers,skf3(skf5(skc1))),growth_rate(first_movers,skf3(skf5(skc1))))*l.
% 0.69/0.88 81[0:Obv:80.0] || in_environment(skc1,skf5(skc1)) -> greater(growth_rate(efficient_producers,skf3(skf5(skc1))),growth_rate(first_movers,skf3(skf5(skc1))))*l.
% 0.69/0.88 82[0:MRR:81.0,38.0] || -> greater(growth_rate(efficient_producers,skf3(skf5(skc1))),growth_rate(first_movers,skf3(skf5(skc1))))*l.
% 0.69/0.88 83[0:SpR:8.1,82.0] SkP0(skf3(skf5(skc1))) || -> greater(zero,growth_rate(first_movers,skf3(skf5(skc1))))*r.
% 0.69/0.88 84[0:OCh:15.1,15.0,82.0,10.1] SkP1(skf3(skf5(skc1))) || -> greater(zero,growth_rate(first_movers,skf3(skf5(skc1))))*r.
% 0.69/0.88 85[0:Rew:7.1,83.1] SkP0(skf3(skf5(skc1))) || -> greater(zero,zero)*.
% 0.69/0.88 86[0:Res:11.1,21.2] environment(skc1) || in_environment(skc1,u) greater_or_equal(skf3(u),equilibrium(skc1))* -> SkP0(skf3(u)) SkP1(skf3(u)) greater(growth_rate(efficient_producers,skf3(u)),zero).
% 0.69/0.88 87[0:SSi:86.0,2.0,1.0] || in_environment(skc1,u) greater_or_equal(skf3(u),equilibrium(skc1))* -> SkP0(skf3(u)) SkP1(skf3(u)) greater(growth_rate(efficient_producers,skf3(u)),zero).
% 0.69/0.88 88[0:SpR:8.1,79.2] SkP0(skf3(u)) || equal(skf3(u),skf5(skc1)) in_environment(skc1,u) -> greater(zero,growth_rate(first_movers,skf3(u)))*r.
% 0.69/0.88 89[0:OCh:15.1,15.0,79.2,10.1] SkP1(skf3(u)) || equal(skf3(u),skf5(skc1)) in_environment(skc1,u) -> greater(zero,growth_rate(first_movers,skf3(u)))*r.
% 0.69/0.88 90[0:Rew:7.1,88.3] SkP0(skf3(u)) || equal(skf3(u),skf5(skc1)) in_environment(skc1,u)* -> greater(zero,zero).
% 0.69/0.88 91[0:Res:11.1,20.2] environment(skc1) || in_environment(skc1,u) greater_or_equal(skf3(u),equilibrium(skc1))* -> SkP0(skf3(u)) SkP1(skf3(u)) greater(zero,growth_rate(first_movers,skf3(u))).
% 0.69/0.88 92[0:SSi:91.0,2.0,1.0] || in_environment(skc1,u) greater_or_equal(skf3(u),equilibrium(skc1))* -> SkP0(skf3(u)) SkP1(skf3(u)) greater(zero,growth_rate(first_movers,skf3(u))).
% 0.69/0.88 95[1:Res:38.0,73.0] || -> greater(equilibrium(skc1),skf5(skc1)) equal(skf5(skc1),equilibrium(skc1)) greater(skf5(skc1),equilibrium(skc1))*l.
% 0.69/0.88 100[2:Spt:95.1] || -> equal(skf5(skc1),equilibrium(skc1))**.
% 0.69/0.88 103[2:Rew:100.0,82.0] || -> greater(growth_rate(efficient_producers,skf3(equilibrium(skc1))),growth_rate(first_movers,skf3(equilibrium(skc1))))*l.
% 0.69/0.88 116[2:SpR:8.1,103.0] SkP0(skf3(equilibrium(skc1))) || -> greater(zero,growth_rate(first_movers,skf3(equilibrium(skc1))))*r.
% 0.69/0.88 117[2:OCh:15.1,15.0,103.0,10.1] SkP1(skf3(equilibrium(skc1))) || -> greater(zero,growth_rate(first_movers,skf3(equilibrium(skc1))))*r.
% 0.69/0.88 118[2:Rew:7.1,116.1] SkP0(skf3(equilibrium(skc1))) || -> greater(zero,zero)*.
% 0.69/0.88 120[0:SpL:7.1,23.1] SkP0(u) environment(v) || greater(zero,zero)+ greater_or_equal(growth_rate(w,u),zero)* subpopulations(first_movers,w,v,u)* -> outcompetes(w,first_movers,u).
% 0.69/0.88 137[0:Res:4.1,87.1] || greater(skf3(u),equilibrium(skc1)) in_environment(skc1,u) -> SkP0(skf3(u)) SkP1(skf3(u)) greater(growth_rate(efficient_producers,skf3(u)),zero)*l.
% 0.69/0.88 138[0:Res:5.1,87.1] || equal(skf3(u),equilibrium(skc1)) in_environment(skc1,u) -> SkP0(skf3(u)) SkP1(skf3(u)) greater(growth_rate(efficient_producers,skf3(u)),zero)*l.
% 0.69/0.88 139[0:Res:6.1,87.1] || in_environment(skc1,equilibrium(skc1)) in_environment(skc1,equilibrium(skc1)) -> SkP0(skf3(equilibrium(skc1))) SkP1(skf3(equilibrium(skc1))) greater(growth_rate(efficient_producers,skf3(equilibrium(skc1))),zero)*l.
% 0.69/0.88 140[0:Obv:139.0] || in_environment(skc1,equilibrium(skc1)) -> SkP0(skf3(equilibrium(skc1))) SkP1(skf3(equilibrium(skc1))) greater(growth_rate(efficient_producers,skf3(equilibrium(skc1))),zero)*l.
% 0.69/0.88 141[1:MRR:140.0,58.0] || -> SkP0(skf3(equilibrium(skc1))) SkP1(skf3(equilibrium(skc1))) greater(growth_rate(efficient_producers,skf3(equilibrium(skc1))),zero)*l.
% 0.69/0.88 144[0:Res:4.1,92.1] || greater(skf3(u),equilibrium(skc1)) in_environment(skc1,u) -> SkP0(skf3(u)) SkP1(skf3(u)) greater(zero,growth_rate(first_movers,skf3(u)))*r.
% 0.69/0.88 145[0:Res:5.1,92.1] || equal(skf3(u),equilibrium(skc1)) in_environment(skc1,u) -> SkP0(skf3(u)) SkP1(skf3(u)) greater(zero,growth_rate(first_movers,skf3(u)))*r.
% 0.69/0.88 146[0:Res:6.1,92.1] || in_environment(skc1,equilibrium(skc1)) in_environment(skc1,equilibrium(skc1)) -> SkP0(skf3(equilibrium(skc1))) SkP1(skf3(equilibrium(skc1))) greater(zero,growth_rate(first_movers,skf3(equilibrium(skc1))))*r.
% 0.69/0.88 148[0:Obv:146.0] || in_environment(skc1,equilibrium(skc1)) -> SkP0(skf3(equilibrium(skc1))) SkP1(skf3(equilibrium(skc1))) greater(zero,growth_rate(first_movers,skf3(equilibrium(skc1))))*r.
% 0.69/0.88 149[2:MRR:148.0,148.2,58.0,117.0] || -> SkP0(skf3(equilibrium(skc1))) greater(zero,growth_rate(first_movers,skf3(equilibrium(skc1))))*r.
% 0.69/0.88 150[3:Spt:149.0] || -> SkP0(skf3(equilibrium(skc1)))*.
% 0.69/0.88 151[3:MRR:118.0,150.0] || -> greater(zero,zero)*.
% 0.69/0.88 152[3:MRR:120.2,151.0] SkP0(u) environment(v) || greater_or_equal(growth_rate(w,u),zero)*+ subpopulations(first_movers,w,v,u)* -> outcompetes(w,first_movers,u).
% 0.69/0.88 154[3:SpL:8.1,152.2] SkP0(u) SkP0(u) environment(v) || greater_or_equal(zero,zero) subpopulations(first_movers,efficient_producers,v,u)* -> outcompetes(efficient_producers,first_movers,u).
% 0.69/0.88 159[3:Obv:154.0] SkP0(u) environment(v) || greater_or_equal(zero,zero) subpopulations(first_movers,efficient_producers,v,u)* -> outcompetes(efficient_producers,first_movers,u).
% 0.69/0.88 160[3:Res:11.1,159.3] SkP0(skf3(u)) environment(skc1) || in_environment(skc1,u) greater_or_equal(zero,zero) -> outcompetes(efficient_producers,first_movers,skf3(u))*.
% 0.69/0.88 161[3:SSi:160.1,2.0,1.0] SkP0(skf3(u)) || in_environment(skc1,u) greater_or_equal(zero,zero) -> outcompetes(efficient_producers,first_movers,skf3(u))*.
% 0.69/0.88 162[3:MRR:161.3,3.0] SkP0(skf3(u)) || in_environment(skc1,u)* greater_or_equal(zero,zero)* -> .
% 0.69/0.88 163[3:SoR:162.0,150.0] || in_environment(skc1,equilibrium(skc1))* greater_or_equal(zero,zero) -> .
% 0.69/0.88 164[3:MRR:163.0,58.0] || greater_or_equal(zero,zero)* -> .
% 0.69/0.88 171[3:Res:4.1,164.0] || greater(zero,zero)* -> .
% 0.69/0.88 174[3:MRR:171.0,151.0] || -> .
% 0.69/0.88 175[3:Spt:174.0,149.0,150.0] || SkP0(skf3(equilibrium(skc1)))* -> .
% 0.69/0.88 176[3:Spt:174.0,149.1] || -> greater(zero,growth_rate(first_movers,skf3(equilibrium(skc1))))*r.
% 0.69/0.88 177[3:MRR:141.0,175.0] || -> SkP1(skf3(equilibrium(skc1))) greater(growth_rate(efficient_producers,skf3(equilibrium(skc1))),zero)*l.
% 0.69/0.88 180[3:OCh:15.1,15.0,176.0,9.1] SkP1(skf3(equilibrium(skc1))) || -> greater(zero,zero)*.
% 0.69/0.88 187[0:SpL:7.1,28.0] SkP0(u) || greater(zero,zero) greater_or_equal(growth_rate(v,u),zero)* subpopulations(first_movers,v,skc1,u) -> outcompetes(v,first_movers,u).
% 0.69/0.88 189[3:Res:176.0,28.0] || greater_or_equal(growth_rate(u,skf3(equilibrium(skc1))),zero)* subpopulations(first_movers,u,skc1,skf3(equilibrium(skc1))) -> outcompetes(u,first_movers,skf3(equilibrium(skc1))).
% 0.69/0.88 202[3:Res:4.1,189.0] || greater(growth_rate(u,skf3(equilibrium(skc1))),zero) subpopulations(first_movers,u,skc1,skf3(equilibrium(skc1)))* -> outcompetes(u,first_movers,skf3(equilibrium(skc1))).
% 0.69/0.88 229[3:Res:11.1,202.1] || in_environment(skc1,equilibrium(skc1)) greater(growth_rate(efficient_producers,skf3(equilibrium(skc1))),zero) -> outcompetes(efficient_producers,first_movers,skf3(equilibrium(skc1)))*.
% 0.69/0.88 230[3:MRR:229.0,229.2,58.0,3.0] || greater(growth_rate(efficient_producers,skf3(equilibrium(skc1))),zero)*l -> .
% 0.69/0.88 231[3:MRR:177.1,230.0] || -> SkP1(skf3(equilibrium(skc1)))*.
% 0.69/0.88 232[3:MRR:180.0,231.0] || -> greater(zero,zero)*.
% 0.69/0.88 247[3:NCh:15.2,15.0,230.0,103.0] || greater(growth_rate(first_movers,skf3(equilibrium(skc1))),zero)*l -> .
% 0.69/0.88 261[3:NCh:15.2,15.0,247.0,9.1] SkP1(skf3(equilibrium(skc1))) || greater(zero,zero)* -> .
% 0.69/0.88 266[3:SSi:261.0,231.0] || greater(zero,zero)* -> .
% 0.69/0.88 267[3:MRR:266.0,232.0] || -> .
% 0.69/0.88 268[2:Spt:267.0,95.1,100.0] || equal(skf5(skc1),equilibrium(skc1))** -> .
% 0.69/0.88 269[2:Spt:267.0,95.0,95.2] || -> greater(equilibrium(skc1),skf5(skc1)) greater(skf5(skc1),equilibrium(skc1))*l.
% 0.69/0.88 270[1:MRR:148.0,58.0] || -> SkP0(skf3(equilibrium(skc1))) SkP1(skf3(equilibrium(skc1))) greater(zero,growth_rate(first_movers,skf3(equilibrium(skc1))))*r.
% 0.69/0.88 279[3:Spt:66.0] || -> equal(skf3(skf5(skc1)),skf5(skc1))**.
% 0.69/0.88 280[3:Rew:279.0,82.0] || -> greater(growth_rate(efficient_producers,skf5(skc1)),growth_rate(first_movers,skf5(skc1)))*l.
% 0.69/0.88 283[3:SpR:279.0,11.1] || in_environment(skc1,skf5(skc1)) -> subpopulations(first_movers,efficient_producers,skc1,skf5(skc1))*.
% 0.69/0.88 285[3:SpL:279.0,3.0] || outcompetes(efficient_producers,first_movers,skf5(skc1))* -> .
% 0.69/0.88 286[3:SpL:279.0,92.1] || in_environment(skc1,skf5(skc1)) greater_or_equal(skf5(skc1),equilibrium(skc1)) -> SkP0(skf3(skf5(skc1))) SkP1(skf3(skf5(skc1))) greater(zero,growth_rate(first_movers,skf3(skf5(skc1))))*r.
% 0.69/0.88 287[3:SpL:279.0,87.1] || in_environment(skc1,skf5(skc1)) greater_or_equal(skf5(skc1),equilibrium(skc1)) -> SkP0(skf3(skf5(skc1))) SkP1(skf3(skf5(skc1))) greater(growth_rate(efficient_producers,skf3(skf5(skc1))),zero)*l.
% 0.69/0.88 289[3:MRR:283.0,38.0] || -> subpopulations(first_movers,efficient_producers,skc1,skf5(skc1))*.
% 0.69/0.88 290[3:Rew:279.0,287.4,279.0,287.3,279.0,287.2] || in_environment(skc1,skf5(skc1)) greater_or_equal(skf5(skc1),equilibrium(skc1))* -> SkP0(skf5(skc1)) SkP1(skf5(skc1)) greater(growth_rate(efficient_producers,skf5(skc1)),zero).
% 0.69/0.88 291[3:MRR:290.0,38.0] || greater_or_equal(skf5(skc1),equilibrium(skc1))* -> SkP0(skf5(skc1)) SkP1(skf5(skc1)) greater(growth_rate(efficient_producers,skf5(skc1)),zero).
% 0.69/0.88 292[3:Rew:279.0,286.4,279.0,286.3,279.0,286.2] || in_environment(skc1,skf5(skc1)) greater_or_equal(skf5(skc1),equilibrium(skc1))* -> SkP0(skf5(skc1)) SkP1(skf5(skc1)) greater(zero,growth_rate(first_movers,skf5(skc1))).
% 0.69/0.88 293[3:MRR:292.0,38.0] || greater_or_equal(skf5(skc1),equilibrium(skc1))* -> SkP0(skf5(skc1)) SkP1(skf5(skc1)) greater(zero,growth_rate(first_movers,skf5(skc1))).
% 0.69/0.88 306[3:SpR:8.1,280.0] SkP0(skf5(skc1)) || -> greater(zero,growth_rate(first_movers,skf5(skc1)))*r.
% 0.69/0.88 307[3:OCh:15.1,15.0,280.0,10.1] SkP1(skf5(skc1)) || -> greater(zero,growth_rate(first_movers,skf5(skc1)))*r.
% 0.69/0.88 308[3:Rew:7.1,306.1] SkP0(skf5(skc1)) || -> greater(zero,zero)*.
% 0.69/0.88 309[3:MRR:293.2,307.0] || greater_or_equal(skf5(skc1),equilibrium(skc1))* -> SkP0(skf5(skc1)) greater(zero,growth_rate(first_movers,skf5(skc1))).
% 0.69/0.88 314[1:Res:270.2,28.0] || greater_or_equal(growth_rate(u,skf3(equilibrium(skc1))),zero)* subpopulations(first_movers,u,skc1,skf3(equilibrium(skc1))) -> SkP0(skf3(equilibrium(skc1))) SkP1(skf3(equilibrium(skc1))) outcompetes(u,first_movers,skf3(equilibrium(skc1))).
% 0.69/0.88 322[4:Spt:309.2] || -> greater(zero,growth_rate(first_movers,skf5(skc1)))*r.
% 0.69/0.88 325[4:Res:322.0,28.0] || greater_or_equal(growth_rate(u,skf5(skc1)),zero)* subpopulations(first_movers,u,skc1,skf5(skc1)) -> outcompetes(u,first_movers,skf5(skc1)).
% 0.69/0.88 335[4:Res:4.1,325.0] || greater(growth_rate(u,skf5(skc1)),zero) subpopulations(first_movers,u,skc1,skf5(skc1))* -> outcompetes(u,first_movers,skf5(skc1)).
% 0.69/0.88 336[4:Res:5.1,325.0] || equal(growth_rate(u,skf5(skc1)),zero) subpopulations(first_movers,u,skc1,skf5(skc1))* -> outcompetes(u,first_movers,skf5(skc1)).
% 0.69/0.88 338[4:Res:289.0,336.1] || equal(growth_rate(efficient_producers,skf5(skc1)),zero) -> outcompetes(efficient_producers,first_movers,skf5(skc1))*.
% 0.69/0.88 339[4:MRR:338.1,285.0] || equal(growth_rate(efficient_producers,skf5(skc1)),zero)** -> .
% 0.69/0.88 345[4:SpL:8.1,339.0] SkP0(skf5(skc1)) || equal(zero,zero)* -> .
% 0.69/0.88 346[4:Obv:345.1] SkP0(skf5(skc1)) || -> .
% 0.69/0.88 347[4:MRR:291.1,346.0] || greater_or_equal(skf5(skc1),equilibrium(skc1))* -> SkP1(skf5(skc1)) greater(growth_rate(efficient_producers,skf5(skc1)),zero).
% 0.69/0.88 348[4:Res:4.1,347.0] || greater(skf5(skc1),equilibrium(skc1)) -> SkP1(skf5(skc1)) greater(growth_rate(efficient_producers,skf5(skc1)),zero)*l.
% 0.69/0.88 355[4:Res:289.0,335.1] || greater(growth_rate(efficient_producers,skf5(skc1)),zero) -> outcompetes(efficient_producers,first_movers,skf5(skc1))*.
% 0.69/0.88 356[4:MRR:355.1,285.0] || greater(growth_rate(efficient_producers,skf5(skc1)),zero)*l -> .
% 0.69/0.88 358[4:MRR:348.2,356.0] || greater(skf5(skc1),equilibrium(skc1)) -> SkP1(skf5(skc1))*.
% 0.69/0.88 369[4:NCh:15.2,15.0,356.0,280.0] || greater(growth_rate(first_movers,skf5(skc1)),zero)*l -> .
% 0.69/0.88 374[4:Res:9.1,369.0] SkP1(skf5(skc1)) || -> .
% 0.69/0.88 378[4:MRR:358.1,374.0] || greater(skf5(skc1),equilibrium(skc1))*l -> .
% 0.69/0.88 380[4:MRR:269.1,378.0] || -> greater(equilibrium(skc1),skf5(skc1))*r.
% 0.69/0.88 398[0:Res:145.4,28.0] || equal(skf3(u),equilibrium(skc1)) in_environment(skc1,u) greater_or_equal(growth_rate(v,skf3(u)),zero)* subpopulations(first_movers,v,skc1,skf3(u)) -> SkP0(skf3(u)) SkP1(skf3(u)) outcompetes(v,first_movers,skf3(u)).
% 0.69/0.88 407[0:SpL:8.1,187.2] SkP0(u) SkP0(u) || greater(zero,zero) greater_or_equal(zero,zero) subpopulations(first_movers,efficient_producers,skc1,u)* -> outcompetes(efficient_producers,first_movers,u).
% 0.69/0.88 413[0:Obv:407.0] SkP0(u) || greater(zero,zero) greater_or_equal(zero,zero) subpopulations(first_movers,efficient_producers,skc1,u)* -> outcompetes(efficient_producers,first_movers,u).
% 0.69/0.88 414[0:MRR:413.2,4.1] SkP0(u) || greater(zero,zero) subpopulations(first_movers,efficient_producers,skc1,u)* -> outcompetes(efficient_producers,first_movers,u).
% 0.69/0.88 415[0:Res:11.1,414.2] SkP0(skf3(u)) || in_environment(skc1,u) greater(zero,zero) -> outcompetes(efficient_producers,first_movers,skf3(u))*.
% 0.69/0.88 416[3:Res:289.0,414.2] SkP0(skf5(skc1)) || greater(zero,zero) -> outcompetes(efficient_producers,first_movers,skf5(skc1))*.
% 0.69/0.88 417[0:MRR:415.3,3.0] SkP0(skf3(u)) || in_environment(skc1,u)* greater(zero,zero) -> .
% 0.69/0.88 418[0:MRR:90.3,417.2] SkP0(skf3(u)) || equal(skf3(u),skf5(skc1)) in_environment(skc1,u)* -> .
% 0.69/0.88 431[0:SpR:8.1,78.2] SkP0(skf3(u)) || greater(skf3(u),skf5(skc1)) in_environment(skc1,u) -> greater(zero,growth_rate(first_movers,skf3(u)))*r.
% 0.69/0.88 432[0:OCh:15.1,15.0,78.2,10.1] SkP1(skf3(u)) || greater(skf3(u),skf5(skc1)) in_environment(skc1,u) -> greater(zero,growth_rate(first_movers,skf3(u)))*r.
% 0.69/0.88 433[0:Rew:7.1,431.3] SkP0(skf3(u)) || greater(skf3(u),skf5(skc1)) in_environment(skc1,u)* -> greater(zero,zero).
% 0.69/0.88 434[0:MRR:433.3,417.2] SkP0(skf3(u)) || greater(skf3(u),skf5(skc1)) in_environment(skc1,u)* -> .
% 0.69/0.88 435[5:Spt:314.3] || -> SkP1(skf3(equilibrium(skc1)))*.
% 0.69/0.88 458[3:SpR:279.0,144.4] || greater(skf3(skf5(skc1)),equilibrium(skc1)) in_environment(skc1,skf5(skc1)) -> SkP0(skf3(skf5(skc1))) SkP1(skf3(skf5(skc1))) greater(zero,growth_rate(first_movers,skf5(skc1)))*r.
% 0.69/0.88 460[0:Res:144.4,23.1] environment(u) || greater(skf3(v),equilibrium(skc1))+ in_environment(skc1,v) greater_or_equal(growth_rate(w,skf3(v)),zero)* subpopulations(first_movers,w,u,skf3(v))* -> SkP0(skf3(v)) SkP1(skf3(v)) outcompetes(w,first_movers,skf3(v)).
% 0.69/0.88 461[0:Res:144.4,28.0] || greater(skf3(u),equilibrium(skc1)) in_environment(skc1,u) greater_or_equal(growth_rate(v,skf3(u)),zero)* subpopulations(first_movers,v,skc1,skf3(u)) -> SkP0(skf3(u)) SkP1(skf3(u)) outcompetes(v,first_movers,skf3(u)).
% 0.69/0.88 473[5:SoR:432.0,435.0] || greater(skf3(equilibrium(skc1)),skf5(skc1)) in_environment(skc1,equilibrium(skc1)) -> greater(zero,growth_rate(first_movers,skf3(equilibrium(skc1))))*r.
% 0.69/0.88 474[5:MRR:473.1,58.0] || greater(skf3(equilibrium(skc1)),skf5(skc1)) -> greater(zero,growth_rate(first_movers,skf3(equilibrium(skc1))))*r.
% 0.69/0.88 478[5:Res:474.1,23.1] environment(u) || greater(skf3(equilibrium(skc1)),skf5(skc1))+ greater_or_equal(growth_rate(v,skf3(equilibrium(skc1))),zero)* subpopulations(first_movers,v,u,skf3(equilibrium(skc1)))* -> outcompetes(v,first_movers,skf3(equilibrium(skc1))).
% 0.69/0.88 668[5:NCh:15.2,15.0,478.1,67.1] environment(u) || greater(equilibrium(skc1),skf5(skc1)) greater_or_equal(growth_rate(v,skf3(equilibrium(skc1))),zero)* subpopulations(first_movers,v,u,skf3(equilibrium(skc1)))* -> outcompetes(v,first_movers,skf3(equilibrium(skc1))) equal(skf3(equilibrium(skc1)),equilibrium(skc1)).
% 0.69/0.88 670[5:MRR:668.1,380.0] environment(u) || greater_or_equal(growth_rate(v,skf3(equilibrium(skc1))),zero)* subpopulations(first_movers,v,u,skf3(equilibrium(skc1)))* -> outcompetes(v,first_movers,skf3(equilibrium(skc1))) equal(skf3(equilibrium(skc1)),equilibrium(skc1)).
% 0.69/0.88 671[5:Rew:670.4,478.1] environment(u) || greater(equilibrium(skc1),skf5(skc1)) greater_or_equal(growth_rate(v,skf3(equilibrium(skc1))),zero)* subpopulations(first_movers,v,u,skf3(equilibrium(skc1)))* -> outcompetes(v,first_movers,skf3(equilibrium(skc1))).
% 0.69/0.88 672[5:MRR:671.1,380.0] environment(u) || greater_or_equal(growth_rate(v,skf3(equilibrium(skc1))),zero)*+ subpopulations(first_movers,v,u,skf3(equilibrium(skc1)))* -> outcompetes(v,first_movers,skf3(equilibrium(skc1))).
% 0.69/0.88 685[5:Res:4.1,672.1] environment(u) || greater(growth_rate(v,skf3(equilibrium(skc1))),zero) subpopulations(first_movers,v,u,skf3(equilibrium(skc1)))* -> outcompetes(v,first_movers,skf3(equilibrium(skc1))).
% 0.69/0.88 711[5:Res:11.1,685.2] environment(skc1) || in_environment(skc1,equilibrium(skc1)) greater(growth_rate(efficient_producers,skf3(equilibrium(skc1))),zero) -> outcompetes(efficient_producers,first_movers,skf3(equilibrium(skc1)))*.
% 0.69/0.88 712[5:SSi:711.0,2.0,1.0] || in_environment(skc1,equilibrium(skc1)) greater(growth_rate(efficient_producers,skf3(equilibrium(skc1))),zero) -> outcompetes(efficient_producers,first_movers,skf3(equilibrium(skc1)))*.
% 0.69/0.88 713[5:MRR:712.0,712.2,58.0,3.0] || greater(growth_rate(efficient_producers,skf3(equilibrium(skc1))),zero)*l -> .
% 0.69/0.88 719[5:NCh:15.2,15.0,713.0,78.2] || greater(growth_rate(first_movers,skf3(equilibrium(skc1))),zero)*l greater(skf3(equilibrium(skc1)),skf5(skc1)) in_environment(skc1,equilibrium(skc1)) -> .
% 0.69/0.88 724[5:MRR:719.2,58.0] || greater(growth_rate(first_movers,skf3(equilibrium(skc1))),zero)*l greater(skf3(equilibrium(skc1)),skf5(skc1)) -> .
% 0.69/0.88 734[5:Res:9.1,724.0] SkP1(skf3(equilibrium(skc1))) || greater(skf3(equilibrium(skc1)),skf5(skc1))*l -> .
% 0.69/0.88 737[5:SSi:734.0,435.0] || greater(skf3(equilibrium(skc1)),skf5(skc1))*l -> .
% 0.69/0.88 750[5:NCh:15.2,15.0,737.0,67.1] || greater(equilibrium(skc1),skf5(skc1)) -> equal(skf3(equilibrium(skc1)),equilibrium(skc1))**.
% 0.69/0.88 752[5:MRR:750.0,380.0] || -> equal(skf3(equilibrium(skc1)),equilibrium(skc1))**.
% 0.69/0.88 760[5:Rew:752.0,737.0] || greater(equilibrium(skc1),skf5(skc1))*r -> .
% 0.69/0.88 761[5:MRR:760.0,380.0] || -> .
% 0.69/0.88 765[5:Spt:761.0,314.3,435.0] || SkP1(skf3(equilibrium(skc1)))* -> .
% 0.69/0.88 766[5:Spt:761.0,314.0,314.1,314.2,314.4] || greater_or_equal(growth_rate(u,skf3(equilibrium(skc1))),zero)* subpopulations(first_movers,u,skc1,skf3(equilibrium(skc1))) -> SkP0(skf3(equilibrium(skc1))) outcompetes(u,first_movers,skf3(equilibrium(skc1))).
% 0.69/0.88 767[5:MRR:270.1,765.0] || -> SkP0(skf3(equilibrium(skc1))) greater(zero,growth_rate(first_movers,skf3(equilibrium(skc1))))*r.
% 0.69/0.88 768[5:MRR:141.1,765.0] || -> SkP0(skf3(equilibrium(skc1))) greater(growth_rate(efficient_producers,skf3(equilibrium(skc1))),zero)*l.
% 0.69/0.88 770[6:Spt:766.0,766.1,766.3] || greater_or_equal(growth_rate(u,skf3(equilibrium(skc1))),zero)* subpopulations(first_movers,u,skc1,skf3(equilibrium(skc1))) -> outcompetes(u,first_movers,skf3(equilibrium(skc1))).
% 0.69/0.88 771[6:SpL:8.1,770.0] SkP0(skf3(equilibrium(skc1))) || greater_or_equal(zero,zero) subpopulations(first_movers,efficient_producers,skc1,skf3(equilibrium(skc1)))* -> outcompetes(efficient_producers,first_movers,skf3(equilibrium(skc1))).
% 0.69/0.88 773[6:Res:4.1,770.0] || greater(growth_rate(u,skf3(equilibrium(skc1))),zero) subpopulations(first_movers,u,skc1,skf3(equilibrium(skc1)))* -> outcompetes(u,first_movers,skf3(equilibrium(skc1))).
% 0.69/0.88 775[6:MRR:771.3,3.0] SkP0(skf3(equilibrium(skc1))) || greater_or_equal(zero,zero) subpopulations(first_movers,efficient_producers,skc1,skf3(equilibrium(skc1)))* -> .
% 0.69/0.88 781[7:Spt:767.0] || -> SkP0(skf3(equilibrium(skc1)))*.
% 0.69/0.88 783[7:MRR:775.0,781.0] || greater_or_equal(zero,zero) subpopulations(first_movers,efficient_producers,skc1,skf3(equilibrium(skc1)))* -> .
% 0.69/0.88 786[7:Res:11.1,783.1] || in_environment(skc1,equilibrium(skc1))* greater_or_equal(zero,zero) -> .
% 0.69/0.88 787[7:MRR:786.0,58.0] || greater_or_equal(zero,zero)* -> .
% 0.69/0.88 794[7:Res:5.1,787.0] || equal(zero,zero)* -> .
% 0.69/0.88 795[7:Obv:794.0] || -> .
% 0.69/0.88 798[7:Spt:795.0,767.0,781.0] || SkP0(skf3(equilibrium(skc1)))* -> .
% 0.69/0.88 799[7:Spt:795.0,767.1] || -> greater(zero,growth_rate(first_movers,skf3(equilibrium(skc1))))*r.
% 0.69/0.88 800[7:MRR:768.0,798.0] || -> greater(growth_rate(efficient_producers,skf3(equilibrium(skc1))),zero)*l.
% 0.69/0.88 940[6:Res:11.1,773.1] || in_environment(skc1,equilibrium(skc1)) greater(growth_rate(efficient_producers,skf3(equilibrium(skc1))),zero) -> outcompetes(efficient_producers,first_movers,skf3(equilibrium(skc1)))*.
% 0.69/0.88 941[7:MRR:940.0,940.1,940.2,58.0,800.0,3.0] || -> .
% 0.69/0.88 942[6:Spt:941.0,766.2] || -> SkP0(skf3(equilibrium(skc1)))*.
% 0.69/0.88 943[6:SoR:434.0,942.0] || greater(skf3(equilibrium(skc1)),skf5(skc1)) in_environment(skc1,equilibrium(skc1))* -> .
% 0.69/0.88 950[6:MRR:943.1,58.0] || greater(skf3(equilibrium(skc1)),skf5(skc1))*l -> .
% 0.69/0.88 951[7:Spt:67.0] || -> equal(skf3(equilibrium(skc1)),equilibrium(skc1))**.
% 0.69/0.88 955[7:Rew:951.0,950.0] || greater(equilibrium(skc1),skf5(skc1))*r -> .
% 0.69/0.88 956[7:MRR:955.0,380.0] || -> .
% 0.69/0.88 957[7:Spt:956.0,67.0,951.0] || equal(skf3(equilibrium(skc1)),equilibrium(skc1))** -> .
% 0.69/0.88 958[7:Spt:956.0,67.1] || -> greater(skf3(equilibrium(skc1)),equilibrium(skc1))*l.
% 0.69/0.88 965[7:NCh:15.2,15.0,950.0,958.0] || greater(equilibrium(skc1),skf5(skc1))*r -> .
% 0.69/0.88 967[7:MRR:965.0,380.0] || -> .
% 0.69/0.88 968[4:Spt:967.0,309.2,322.0] || greater(zero,growth_rate(first_movers,skf5(skc1)))*r -> .
% 0.69/0.88 969[4:Spt:967.0,309.0,309.1] || greater_or_equal(skf5(skc1),equilibrium(skc1))* -> SkP0(skf5(skc1)).
% 0.69/0.88 970[4:MRR:307.1,968.0] SkP1(skf5(skc1)) || -> .
% 0.69/0.88 972[3:MRR:416.2,285.0] SkP0(skf5(skc1)) || greater(zero,zero)* -> .
% 0.69/0.88 973[3:MRR:972.1,308.1] SkP0(skf5(skc1)) || -> .
% 0.69/0.88 980[3:Rew:279.0,458.3,279.0,458.2,279.0,458.0] || greater(skf5(skc1),equilibrium(skc1)) in_environment(skc1,skf5(skc1)) -> SkP0(skf5(skc1)) SkP1(skf5(skc1)) greater(zero,growth_rate(first_movers,skf5(skc1)))*r.
% 0.69/0.88 981[3:MRR:980.1,38.0] || greater(skf5(skc1),equilibrium(skc1)) -> SkP0(skf5(skc1)) SkP1(skf5(skc1)) greater(zero,growth_rate(first_movers,skf5(skc1)))*r.
% 0.69/0.88 982[4:MRR:981.1,981.2,981.3,973.0,970.0,968.0] || greater(skf5(skc1),equilibrium(skc1))*l -> .
% 0.69/0.88 983[4:MRR:269.1,982.0] || -> greater(equilibrium(skc1),skf5(skc1))*r.
% 0.69/0.88 987[5:Spt:67.0] || -> equal(skf3(equilibrium(skc1)),equilibrium(skc1))**.
% 0.69/0.88 990[5:Rew:987.0,270.0] || -> SkP0(equilibrium(skc1)) SkP1(skf3(equilibrium(skc1))) greater(zero,growth_rate(first_movers,skf3(equilibrium(skc1))))*r.
% 0.69/0.88 991[5:Rew:987.0,141.0] || -> SkP0(equilibrium(skc1)) SkP1(skf3(equilibrium(skc1))) greater(growth_rate(efficient_producers,skf3(equilibrium(skc1))),zero)*l.
% 0.69/0.88 992[5:Rew:987.0,990.2,987.0,990.1] || -> SkP0(equilibrium(skc1)) SkP1(equilibrium(skc1)) greater(zero,growth_rate(first_movers,equilibrium(skc1)))*r.
% 0.69/0.88 993[5:Rew:987.0,991.2,987.0,991.1] || -> SkP0(equilibrium(skc1)) SkP1(equilibrium(skc1)) greater(growth_rate(efficient_producers,equilibrium(skc1)),zero)*l.
% 0.69/0.88 997[5:SpR:987.0,11.1] || in_environment(skc1,equilibrium(skc1)) -> subpopulations(first_movers,efficient_producers,skc1,equilibrium(skc1))*.
% 0.69/0.88 999[5:SpR:987.0,78.2] || greater(skf3(equilibrium(skc1)),skf5(skc1)) in_environment(skc1,equilibrium(skc1)) -> greater(growth_rate(efficient_producers,equilibrium(skc1)),growth_rate(first_movers,equilibrium(skc1)))*l.
% 0.69/0.88 1004[5:SpL:987.0,3.0] || outcompetes(efficient_producers,first_movers,equilibrium(skc1))* -> .
% 0.69/0.88 1008[5:MRR:997.0,58.0] || -> subpopulations(first_movers,efficient_producers,skc1,equilibrium(skc1))*.
% 0.69/0.88 1016[5:Rew:987.0,999.0] || greater(equilibrium(skc1),skf5(skc1)) in_environment(skc1,equilibrium(skc1)) -> greater(growth_rate(efficient_producers,equilibrium(skc1)),growth_rate(first_movers,equilibrium(skc1)))*l.
% 0.69/0.88 1017[5:MRR:1016.0,1016.1,983.0,58.0] || -> greater(growth_rate(efficient_producers,equilibrium(skc1)),growth_rate(first_movers,equilibrium(skc1)))*l.
% 0.69/0.88 1031[5:SpR:8.1,1017.0] SkP0(equilibrium(skc1)) || -> greater(zero,growth_rate(first_movers,equilibrium(skc1)))*r.
% 0.69/0.88 1032[5:OCh:15.1,15.0,1017.0,10.1] SkP1(equilibrium(skc1)) || -> greater(zero,growth_rate(first_movers,equilibrium(skc1)))*r.
% 0.69/0.88 1033[5:Rew:7.1,1031.1] SkP0(equilibrium(skc1)) || -> greater(zero,zero)*.
% 0.69/0.88 1034[5:MRR:992.1,1032.0] || -> SkP0(equilibrium(skc1)) greater(zero,growth_rate(first_movers,equilibrium(skc1)))*r.
% 0.69/0.88 1035[6:Spt:1034.0] || -> SkP0(equilibrium(skc1))*.
% 0.69/0.88 1036[6:MRR:1033.0,1035.0] || -> greater(zero,zero)*.
% 0.69/0.88 1040[6:MRR:414.1,1036.0] SkP0(u) || subpopulations(first_movers,efficient_producers,skc1,u)* -> outcompetes(efficient_producers,first_movers,u).
% 0.69/0.88 1068[6:Res:1008.0,1040.1] SkP0(equilibrium(skc1)) || -> outcompetes(efficient_producers,first_movers,equilibrium(skc1))*.
% 0.69/0.88 1069[6:SSi:1068.0,1035.0] || -> outcompetes(efficient_producers,first_movers,equilibrium(skc1))*.
% 0.69/0.88 1070[6:MRR:1069.0,1004.0] || -> .
% 0.69/0.88 1071[6:Spt:1070.0,1034.0,1035.0] || SkP0(equilibrium(skc1))* -> .
% 0.69/0.88 1072[6:Spt:1070.0,1034.1] || -> greater(zero,growth_rate(first_movers,equilibrium(skc1)))*r.
% 0.69/0.88 1073[6:MRR:993.0,1071.0] || -> SkP1(equilibrium(skc1)) greater(growth_rate(efficient_producers,equilibrium(skc1)),zero)*l.
% 0.69/0.88 1078[6:Res:1072.0,28.0] || greater_or_equal(growth_rate(u,equilibrium(skc1)),zero)* subpopulations(first_movers,u,skc1,equilibrium(skc1)) -> outcompetes(u,first_movers,equilibrium(skc1)).
% 0.69/0.88 1079[6:OCh:15.1,15.0,1072.0,9.1] SkP1(equilibrium(skc1)) || -> greater(zero,zero)*.
% 0.69/0.88 1098[6:Res:4.1,1078.0] || greater(growth_rate(u,equilibrium(skc1)),zero) subpopulations(first_movers,u,skc1,equilibrium(skc1))* -> outcompetes(u,first_movers,equilibrium(skc1)).
% 0.69/0.88 1121[6:Res:1008.0,1098.1] || greater(growth_rate(efficient_producers,equilibrium(skc1)),zero) -> outcompetes(efficient_producers,first_movers,equilibrium(skc1))*.
% 0.69/0.88 1122[6:MRR:1121.1,1004.0] || greater(growth_rate(efficient_producers,equilibrium(skc1)),zero)*l -> .
% 0.69/0.88 1123[6:MRR:1073.1,1122.0] || -> SkP1(equilibrium(skc1))*.
% 0.69/0.88 1124[6:MRR:1079.0,1123.0] || -> greater(zero,zero)*.
% 0.69/0.88 1155[6:NCh:15.2,15.0,1122.0,1017.0] || greater(growth_rate(first_movers,equilibrium(skc1)),zero)*l -> .
% 0.69/0.88 1161[6:NCh:15.2,15.0,1155.0,9.1] SkP1(equilibrium(skc1)) || greater(zero,zero)* -> .
% 0.69/0.88 1166[6:SSi:1161.0,1123.0] || greater(zero,zero)* -> .
% 0.69/0.88 1167[6:MRR:1166.0,1124.0] || -> .
% 0.69/0.88 1168[5:Spt:1167.0,67.0,987.0] || equal(skf3(equilibrium(skc1)),equilibrium(skc1))** -> .
% 0.69/0.88 1169[5:Spt:1167.0,67.1] || -> greater(skf3(equilibrium(skc1)),equilibrium(skc1))*l.
% 0.69/0.88 1177[6:Spt:270.0] || -> SkP0(skf3(equilibrium(skc1)))*.
% 0.69/0.88 1178[6:SoR:434.0,1177.0] || greater(skf3(equilibrium(skc1)),skf5(skc1)) in_environment(skc1,equilibrium(skc1))* -> .
% 0.69/0.88 1185[6:MRR:1178.1,58.0] || greater(skf3(equilibrium(skc1)),skf5(skc1))*l -> .
% 0.69/0.88 1191[6:NCh:15.2,15.0,1185.0,1169.0] || greater(equilibrium(skc1),skf5(skc1))*r -> .
% 0.69/0.88 1193[6:MRR:1191.0,983.0] || -> .
% 0.69/0.88 1194[6:Spt:1193.0,270.0,1177.0] || SkP0(skf3(equilibrium(skc1)))* -> .
% 0.69/0.88 1195[6:Spt:1193.0,270.1,270.2] || -> SkP1(skf3(equilibrium(skc1))) greater(zero,growth_rate(first_movers,skf3(equilibrium(skc1))))*r.
% 0.69/0.88 1196[6:MRR:141.0,1194.0] || -> SkP1(skf3(equilibrium(skc1))) greater(growth_rate(efficient_producers,skf3(equilibrium(skc1))),zero)*l.
% 0.69/0.88 1197[6:MRR:314.2,1194.0] || greater_or_equal(growth_rate(u,skf3(equilibrium(skc1))),zero)* subpopulations(first_movers,u,skc1,skf3(equilibrium(skc1))) -> SkP1(skf3(equilibrium(skc1))) outcompetes(u,first_movers,skf3(equilibrium(skc1))).
% 0.69/0.88 1199[7:Spt:1195.0] || -> SkP1(skf3(equilibrium(skc1)))*.
% 0.69/0.88 1200[7:SoR:432.0,1199.0] || greater(skf3(equilibrium(skc1)),skf5(skc1)) in_environment(skc1,equilibrium(skc1)) -> greater(zero,growth_rate(first_movers,skf3(equilibrium(skc1))))*r.
% 0.69/0.88 1203[7:MRR:1200.1,58.0] || greater(skf3(equilibrium(skc1)),skf5(skc1)) -> greater(zero,growth_rate(first_movers,skf3(equilibrium(skc1))))*r.
% 0.69/0.88 1218[7:Res:1203.1,23.1] environment(u) || greater(skf3(equilibrium(skc1)),skf5(skc1))+ greater_or_equal(growth_rate(v,skf3(equilibrium(skc1))),zero)* subpopulations(first_movers,v,u,skf3(equilibrium(skc1)))* -> outcompetes(v,first_movers,skf3(equilibrium(skc1))).
% 0.69/0.88 1420[7:NCh:15.2,15.0,1218.1,1169.0] environment(u) || greater(equilibrium(skc1),skf5(skc1)) greater_or_equal(growth_rate(v,skf3(equilibrium(skc1))),zero)* subpopulations(first_movers,v,u,skf3(equilibrium(skc1)))* -> outcompetes(v,first_movers,skf3(equilibrium(skc1))).
% 0.69/0.88 1422[7:MRR:1420.1,983.0] environment(u) || greater_or_equal(growth_rate(v,skf3(equilibrium(skc1))),zero)*+ subpopulations(first_movers,v,u,skf3(equilibrium(skc1)))* -> outcompetes(v,first_movers,skf3(equilibrium(skc1))).
% 0.69/0.88 1425[7:Res:4.1,1422.1] environment(u) || greater(growth_rate(v,skf3(equilibrium(skc1))),zero) subpopulations(first_movers,v,u,skf3(equilibrium(skc1)))* -> outcompetes(v,first_movers,skf3(equilibrium(skc1))).
% 0.69/0.88 1466[7:Res:11.1,1425.2] environment(skc1) || in_environment(skc1,equilibrium(skc1)) greater(growth_rate(efficient_producers,skf3(equilibrium(skc1))),zero) -> outcompetes(efficient_producers,first_movers,skf3(equilibrium(skc1)))*.
% 0.69/0.88 1467[7:SSi:1466.0,2.0,1.0] || in_environment(skc1,equilibrium(skc1)) greater(growth_rate(efficient_producers,skf3(equilibrium(skc1))),zero) -> outcompetes(efficient_producers,first_movers,skf3(equilibrium(skc1)))*.
% 0.69/0.88 1468[7:MRR:1467.0,1467.2,58.0,3.0] || greater(growth_rate(efficient_producers,skf3(equilibrium(skc1))),zero)*l -> .
% 0.69/0.88 1471[7:NCh:15.2,15.0,1468.0,78.2] || greater(growth_rate(first_movers,skf3(equilibrium(skc1))),zero)*l greater(skf3(equilibrium(skc1)),skf5(skc1)) in_environment(skc1,equilibrium(skc1)) -> .
% 0.69/0.88 1479[7:MRR:1471.2,58.0] || greater(growth_rate(first_movers,skf3(equilibrium(skc1))),zero)*l greater(skf3(equilibrium(skc1)),skf5(skc1)) -> .
% 0.69/0.88 1495[7:Res:9.1,1479.0] SkP1(skf3(equilibrium(skc1))) || greater(skf3(equilibrium(skc1)),skf5(skc1))*l -> .
% 0.69/0.88 1498[7:SSi:1495.0,1199.0] || greater(skf3(equilibrium(skc1)),skf5(skc1))*l -> .
% 0.69/0.88 1500[7:NCh:15.2,15.0,1498.0,1169.0] || greater(equilibrium(skc1),skf5(skc1))*r -> .
% 0.69/0.88 1502[7:MRR:1500.0,983.0] || -> .
% 0.69/0.88 1503[7:Spt:1502.0,1195.0,1199.0] || SkP1(skf3(equilibrium(skc1)))* -> .
% 0.69/0.88 1504[7:Spt:1502.0,1195.1] || -> greater(zero,growth_rate(first_movers,skf3(equilibrium(skc1))))*r.
% 0.69/0.88 1505[7:MRR:1196.0,1503.0] || -> greater(growth_rate(efficient_producers,skf3(equilibrium(skc1))),zero)*l.
% 0.69/0.88 1506[7:MRR:1197.2,1503.0] || greater_or_equal(growth_rate(u,skf3(equilibrium(skc1))),zero)* subpopulations(first_movers,u,skc1,skf3(equilibrium(skc1))) -> outcompetes(u,first_movers,skf3(equilibrium(skc1))).
% 0.69/0.88 1534[7:Res:4.1,1506.0] || greater(growth_rate(u,skf3(equilibrium(skc1))),zero) subpopulations(first_movers,u,skc1,skf3(equilibrium(skc1)))* -> outcompetes(u,first_movers,skf3(equilibrium(skc1))).
% 0.69/0.88 1558[7:Res:11.1,1534.1] || in_environment(skc1,equilibrium(skc1)) greater(growth_rate(efficient_producers,skf3(equilibrium(skc1))),zero) -> outcompetes(efficient_producers,first_movers,skf3(equilibrium(skc1)))*.
% 0.69/0.88 1559[7:MRR:1558.0,1558.1,1558.2,58.0,1505.0,3.0] || -> .
% 0.69/0.88 1560[3:Spt:1559.0,66.0,279.0] || equal(skf3(skf5(skc1)),skf5(skc1))** -> .
% 0.69/0.88 1561[3:Spt:1559.0,66.1] || -> greater(skf3(skf5(skc1)),skf5(skc1))*l.
% 0.69/0.88 1563[4:Spt:67.0] || -> equal(skf3(equilibrium(skc1)),equilibrium(skc1))**.
% 0.69/0.88 1566[4:Rew:1563.0,141.0] || -> SkP0(equilibrium(skc1)) SkP1(skf3(equilibrium(skc1))) greater(growth_rate(efficient_producers,skf3(equilibrium(skc1))),zero)*l.
% 0.69/0.88 1568[4:Rew:1563.0,1566.2,1563.0,1566.1] || -> SkP0(equilibrium(skc1)) SkP1(equilibrium(skc1)) greater(growth_rate(efficient_producers,equilibrium(skc1)),zero)*l.
% 0.69/0.88 1573[4:SpR:1563.0,11.1] || in_environment(skc1,equilibrium(skc1)) -> subpopulations(first_movers,efficient_producers,skc1,equilibrium(skc1))*.
% 0.69/0.88 1575[4:SpR:1563.0,78.2] || greater(skf3(equilibrium(skc1)),skf5(skc1)) in_environment(skc1,equilibrium(skc1)) -> greater(growth_rate(efficient_producers,equilibrium(skc1)),growth_rate(first_movers,equilibrium(skc1)))*l.
% 0.69/0.88 1578[4:SpL:1563.0,3.0] || outcompetes(efficient_producers,first_movers,equilibrium(skc1))* -> .
% 0.69/0.88 1582[4:MRR:1573.0,58.0] || -> subpopulations(first_movers,efficient_producers,skc1,equilibrium(skc1))*.
% 0.69/0.88 1588[4:Rew:1563.0,1575.0] || greater(equilibrium(skc1),skf5(skc1)) in_environment(skc1,equilibrium(skc1)) -> greater(growth_rate(efficient_producers,equilibrium(skc1)),growth_rate(first_movers,equilibrium(skc1)))*l.
% 0.69/0.88 1589[4:MRR:1588.1,58.0] || greater(equilibrium(skc1),skf5(skc1)) -> greater(growth_rate(efficient_producers,equilibrium(skc1)),growth_rate(first_movers,equilibrium(skc1)))*l.
% 0.69/0.88 1592[4:Res:1582.0,414.2] SkP0(equilibrium(skc1)) || greater(zero,zero) -> outcompetes(efficient_producers,first_movers,equilibrium(skc1))*.
% 0.69/0.88 1603[4:MRR:1592.2,1578.0] SkP0(equilibrium(skc1)) || greater(zero,zero)* -> .
% 0.69/0.88 1607[5:Spt:1568.0] || -> SkP0(equilibrium(skc1))*.
% 0.69/0.88 1608[5:MRR:1603.0,1607.0] || greater(zero,zero)* -> .
% 0.69/0.88 1610[5:MRR:85.1,1608.0] SkP0(skf3(skf5(skc1))) || -> .
% 0.69/0.88 1618[4:SpR:8.1,1589.1] SkP0(equilibrium(skc1)) || greater(equilibrium(skc1),skf5(skc1)) -> greater(zero,growth_rate(first_movers,equilibrium(skc1)))*r.
% 0.69/0.88 1619[4:OCh:15.1,15.0,1589.1,10.1] SkP1(equilibrium(skc1)) || greater(equilibrium(skc1),skf5(skc1)) -> greater(zero,growth_rate(first_movers,equilibrium(skc1)))*r.
% 0.69/0.88 1620[4:Rew:7.1,1618.2] SkP0(equilibrium(skc1)) || greater(equilibrium(skc1),skf5(skc1))*r -> greater(zero,zero).
% 0.69/0.88 1621[5:SSi:1620.0,1607.0] || greater(equilibrium(skc1),skf5(skc1))*r -> greater(zero,zero).
% 0.69/0.88 1622[5:MRR:1621.1,1608.0] || greater(equilibrium(skc1),skf5(skc1))*r -> .
% 0.69/0.88 1623[5:MRR:269.0,1622.0] || -> greater(skf5(skc1),equilibrium(skc1))*l.
% 0.69/0.88 1643[0:Res:4.1,398.2] || greater(growth_rate(u,skf3(v)),zero) equal(skf3(v),equilibrium(skc1)) in_environment(skc1,v) subpopulations(first_movers,u,skc1,skf3(v))* -> SkP0(skf3(v)) SkP1(skf3(v)) outcompetes(u,first_movers,skf3(v)).
% 0.69/0.88 1672[0:Res:4.1,461.2] || greater(growth_rate(u,skf3(v)),zero) greater(skf3(v),equilibrium(skc1)) in_environment(skc1,v) subpopulations(first_movers,u,skc1,skf3(v))* -> SkP0(skf3(v)) SkP1(skf3(v)) outcompetes(u,first_movers,skf3(v)).
% 0.69/0.88 1676[0:Res:11.1,1643.3] || in_environment(skc1,u) greater(growth_rate(efficient_producers,skf3(u)),zero) equal(skf3(u),equilibrium(skc1)) in_environment(skc1,u) -> SkP0(skf3(u)) SkP1(skf3(u)) outcompetes(efficient_producers,first_movers,skf3(u))*.
% 0.69/0.88 1677[0:Obv:1676.0] || greater(growth_rate(efficient_producers,skf3(u)),zero) equal(skf3(u),equilibrium(skc1)) in_environment(skc1,u) -> SkP0(skf3(u)) SkP1(skf3(u)) outcompetes(efficient_producers,first_movers,skf3(u))*.
% 0.69/0.88 1678[0:MRR:1677.0,1677.5,138.4,3.0] || equal(skf3(u),equilibrium(skc1)) in_environment(skc1,u) -> SkP0(skf3(u))* SkP1(skf3(u)).
% 0.69/0.88 1680[3:NCh:15.2,15.0,460.1,1561.0] environment(u) || greater(skf5(skc1),equilibrium(skc1)) in_environment(skc1,skf5(skc1)) greater_or_equal(growth_rate(v,skf3(skf5(skc1))),zero)* subpopulations(first_movers,v,u,skf3(skf5(skc1)))* -> SkP0(skf3(skf5(skc1))) SkP1(skf3(skf5(skc1))) outcompetes(v,first_movers,skf3(skf5(skc1))).
% 0.69/0.88 1682[5:MRR:1680.1,1680.2,1680.5,1623.0,38.0,1610.0] environment(u) || greater_or_equal(growth_rate(v,skf3(skf5(skc1))),zero)*+ subpopulations(first_movers,v,u,skf3(skf5(skc1)))* -> SkP1(skf3(skf5(skc1))) outcompetes(v,first_movers,skf3(skf5(skc1))).
% 0.69/0.88 1684[0:SoR:434.0,1678.2] || greater(skf3(u),skf5(skc1)) in_environment(skc1,u) in_environment(skc1,u) equal(skf3(u),equilibrium(skc1)) -> SkP1(skf3(u))*.
% 0.69/0.88 1687[4:SpR:1563.0,1678.2] || equal(skf3(equilibrium(skc1)),equilibrium(skc1)) in_environment(skc1,equilibrium(skc1)) -> SkP0(equilibrium(skc1)) SkP1(skf3(equilibrium(skc1)))*.
% 0.69/0.88 1690[0:Obv:1684.1] || greater(skf3(u),skf5(skc1)) in_environment(skc1,u) equal(skf3(u),equilibrium(skc1)) -> SkP1(skf3(u))*.
% 0.69/0.88 1707[6:Spt:1682.0,1682.1,1682.2,1682.4] environment(u) || greater_or_equal(growth_rate(v,skf3(skf5(skc1))),zero)*+ subpopulations(first_movers,v,u,skf3(skf5(skc1)))* -> outcompetes(v,first_movers,skf3(skf5(skc1))).
% 0.69/0.88 1710[6:Res:4.1,1707.1] environment(u) || greater(growth_rate(v,skf3(skf5(skc1))),zero) subpopulations(first_movers,v,u,skf3(skf5(skc1)))* -> outcompetes(v,first_movers,skf3(skf5(skc1))).
% 0.69/0.88 1723[0:SoR:432.0,1690.3] || greater(skf3(u),skf5(skc1)) in_environment(skc1,u) equal(skf3(u),equilibrium(skc1)) in_environment(skc1,u) greater(skf3(u),skf5(skc1)) -> greater(zero,growth_rate(first_movers,skf3(u)))*r.
% 0.69/0.88 1731[0:Obv:1723.1] || equal(skf3(u),equilibrium(skc1)) in_environment(skc1,u) greater(skf3(u),skf5(skc1)) -> greater(zero,growth_rate(first_movers,skf3(u)))*r.
% 0.69/0.88 1765[6:Res:11.1,1710.2] environment(skc1) || in_environment(skc1,skf5(skc1)) greater(growth_rate(efficient_producers,skf3(skf5(skc1))),zero) -> outcompetes(efficient_producers,first_movers,skf3(skf5(skc1)))*.
% 0.69/0.88 1766[6:SSi:1765.0,2.0,1.0] || in_environment(skc1,skf5(skc1)) greater(growth_rate(efficient_producers,skf3(skf5(skc1))),zero) -> outcompetes(efficient_producers,first_movers,skf3(skf5(skc1)))*.
% 0.69/0.88 1767[6:MRR:1766.0,1766.2,38.0,3.0] || greater(growth_rate(efficient_producers,skf3(skf5(skc1))),zero)*l -> .
% 0.69/0.88 1769[0:Res:11.1,1672.3] || in_environment(skc1,u) greater(growth_rate(efficient_producers,skf3(u)),zero) greater(skf3(u),equilibrium(skc1)) in_environment(skc1,u) -> SkP0(skf3(u)) SkP1(skf3(u)) outcompetes(efficient_producers,first_movers,skf3(u))*.
% 0.69/0.88 1770[0:Obv:1769.0] || greater(growth_rate(efficient_producers,skf3(u)),zero) greater(skf3(u),equilibrium(skc1)) in_environment(skc1,u) -> SkP0(skf3(u)) SkP1(skf3(u)) outcompetes(efficient_producers,first_movers,skf3(u))*.
% 0.69/0.88 1771[0:MRR:1770.0,1770.5,137.4,3.0] || greater(skf3(u),equilibrium(skc1)) in_environment(skc1,u) -> SkP0(skf3(u))* SkP1(skf3(u)).
% 0.69/0.88 1777[6:NCh:15.2,15.0,1767.0,82.0] || greater(growth_rate(first_movers,skf3(skf5(skc1))),zero)*l -> .
% 0.69/0.88 1782[6:Res:9.1,1777.0] SkP1(skf3(skf5(skc1))) || -> .
% 0.69/0.88 1788[0:SoR:434.0,1771.2] || greater(skf3(u),skf5(skc1)) in_environment(skc1,u) in_environment(skc1,u) greater(skf3(u),equilibrium(skc1)) -> SkP1(skf3(u))*.
% 0.69/0.88 1789[0:SoR:418.0,1771.2] || equal(skf3(u),skf5(skc1)) in_environment(skc1,u) in_environment(skc1,u) greater(skf3(u),equilibrium(skc1)) -> SkP1(skf3(u))*.
% 0.69/0.88 1790[5:SoR:1610.0,1771.2] || in_environment(skc1,skf5(skc1)) greater(skf3(skf5(skc1)),equilibrium(skc1)) -> SkP1(skf3(skf5(skc1)))*.
% 0.69/0.88 1792[6:MRR:1790.0,1790.2,38.0,1782.0] || greater(skf3(skf5(skc1)),equilibrium(skc1))*l -> .
% 0.69/0.88 1793[0:Obv:1789.1] || equal(skf3(u),skf5(skc1)) in_environment(skc1,u) greater(skf3(u),equilibrium(skc1)) -> SkP1(skf3(u))*.
% 0.69/0.88 1794[0:Obv:1788.1] || greater(skf3(u),skf5(skc1)) in_environment(skc1,u) greater(skf3(u),equilibrium(skc1)) -> SkP1(skf3(u))*.
% 0.69/0.88 1796[6:NCh:15.2,15.0,1792.0,1561.0] || greater(skf5(skc1),equilibrium(skc1))*l -> .
% 0.69/0.88 1798[6:MRR:1796.0,1623.0] || -> .
% 0.69/0.88 1799[6:Spt:1798.0,1682.3] || -> SkP1(skf3(skf5(skc1)))*.
% 0.69/0.88 1800[6:MRR:84.0,1799.0] || -> greater(zero,growth_rate(first_movers,skf3(skf5(skc1))))*r.
% 0.69/0.88 1808[6:OCh:15.1,15.0,1800.0,9.1] SkP1(skf3(skf5(skc1))) || -> greater(zero,zero)*.
% 0.69/0.88 1813[6:SSi:1808.0,1799.0] || -> greater(zero,zero)*.
% 0.69/0.88 1814[6:MRR:1813.0,1608.0] || -> .
% 0.69/0.88 1817[5:Spt:1814.0,1568.0,1607.0] || SkP0(equilibrium(skc1))* -> .
% 0.69/0.88 1818[5:Spt:1814.0,1568.1,1568.2] || -> SkP1(equilibrium(skc1)) greater(growth_rate(efficient_producers,equilibrium(skc1)),zero)*l.
% 0.69/0.88 1822[4:Rew:1563.0,1687.3,1563.0,1687.0] || equal(equilibrium(skc1),equilibrium(skc1)) in_environment(skc1,equilibrium(skc1))* -> SkP0(equilibrium(skc1)) SkP1(equilibrium(skc1)).
% 0.69/0.88 1823[4:Obv:1822.0] || in_environment(skc1,equilibrium(skc1))* -> SkP0(equilibrium(skc1)) SkP1(equilibrium(skc1)).
% 0.69/0.88 1824[4:MRR:1823.0,58.0] || -> SkP0(equilibrium(skc1))* SkP1(equilibrium(skc1)).
% 0.69/0.88 1825[5:MRR:1824.0,1817.0] || -> SkP1(equilibrium(skc1))*.
% 0.69/0.88 1828[5:MRR:1619.0,1825.0] || greater(equilibrium(skc1),skf5(skc1)) -> greater(zero,growth_rate(first_movers,equilibrium(skc1)))*r.
% 0.69/0.88 1832[3:MRR:1680.2,38.0] environment(u) || greater(skf5(skc1),equilibrium(skc1)) greater_or_equal(growth_rate(v,skf3(skf5(skc1))),zero)* subpopulations(first_movers,v,u,skf3(skf5(skc1)))* -> SkP0(skf3(skf5(skc1))) SkP1(skf3(skf5(skc1))) outcompetes(v,first_movers,skf3(skf5(skc1))).
% 0.69/0.88 1837[0:SoR:85.0,1678.2] || in_environment(skc1,skf5(skc1)) equal(skf3(skf5(skc1)),equilibrium(skc1)) -> greater(zero,zero) SkP1(skf3(skf5(skc1)))*.
% 0.69/0.88 1838[0:SoR:85.0,1771.2] || in_environment(skc1,skf5(skc1)) greater(skf3(skf5(skc1)),equilibrium(skc1)) -> greater(zero,zero) SkP1(skf3(skf5(skc1)))*.
% 0.69/0.88 1839[0:MRR:1837.0,38.0] || equal(skf3(skf5(skc1)),equilibrium(skc1)) -> greater(zero,zero) SkP1(skf3(skf5(skc1)))*.
% 0.69/0.88 1840[0:MRR:1838.0,38.0] || greater(skf3(skf5(skc1)),equilibrium(skc1)) -> greater(zero,zero) SkP1(skf3(skf5(skc1)))*.
% 0.69/0.88 1843[0:SoR:417.0,1771.2] || in_environment(skc1,u) greater(zero,zero) in_environment(skc1,u) greater(skf3(u),equilibrium(skc1)) -> SkP1(skf3(u))*.
% 0.69/0.88 1845[0:Obv:1843.0] || greater(zero,zero) in_environment(skc1,u) greater(skf3(u),equilibrium(skc1)) -> SkP1(skf3(u))*.
% 0.69/0.88 1846[6:Spt:1839.1] || -> greater(zero,zero)*.
% 0.69/0.88 1858[6:MRR:120.2,1846.0] SkP0(u) environment(v) || greater_or_equal(growth_rate(w,u),zero)*+ subpopulations(first_movers,w,v,u)* -> outcompetes(w,first_movers,u).
% 0.69/0.88 1862[6:MRR:1845.0,1846.0] || in_environment(skc1,u) greater(skf3(u),equilibrium(skc1)) -> SkP1(skf3(u))*.
% 0.69/0.88 1867[6:MRR:1832.4,1858.0] environment(u) || greater(skf5(skc1),equilibrium(skc1)) greater_or_equal(growth_rate(v,skf3(skf5(skc1))),zero)* subpopulations(first_movers,v,u,skf3(skf5(skc1)))* -> SkP1(skf3(skf5(skc1))) outcompetes(v,first_movers,skf3(skf5(skc1))).
% 0.69/0.88 1927[7:Spt:269.0] || -> greater(equilibrium(skc1),skf5(skc1))*r.
% 0.69/0.88 1928[7:MRR:1589.0,1927.0] || -> greater(growth_rate(efficient_producers,equilibrium(skc1)),growth_rate(first_movers,equilibrium(skc1)))*l.
% 0.69/0.88 1929[7:MRR:1828.0,1927.0] || -> greater(zero,growth_rate(first_movers,equilibrium(skc1)))*r.
% 0.69/0.88 1939[7:Res:1929.0,28.0] || greater_or_equal(growth_rate(u,equilibrium(skc1)),zero)* subpopulations(first_movers,u,skc1,equilibrium(skc1)) -> outcompetes(u,first_movers,equilibrium(skc1)).
% 0.69/0.88 1951[7:Res:4.1,1939.0] || greater(growth_rate(u,equilibrium(skc1)),zero) subpopulations(first_movers,u,skc1,equilibrium(skc1))* -> outcompetes(u,first_movers,equilibrium(skc1)).
% 0.69/0.88 1976[7:Res:1582.0,1951.1] || greater(growth_rate(efficient_producers,equilibrium(skc1)),zero) -> outcompetes(efficient_producers,first_movers,equilibrium(skc1))*.
% 0.69/0.88 1977[7:MRR:1976.1,1578.0] || greater(growth_rate(efficient_producers,equilibrium(skc1)),zero)*l -> .
% 0.69/0.88 1979[7:NCh:15.2,15.0,1977.0,1928.0] || greater(growth_rate(first_movers,equilibrium(skc1)),zero)*l -> .
% 0.69/0.88 1985[7:NCh:15.2,15.0,1979.0,9.1] SkP1(equilibrium(skc1)) || greater(zero,zero)* -> .
% 0.69/0.88 1990[7:SSi:1985.0,1825.0] || greater(zero,zero)* -> .
% 0.69/0.88 1991[7:MRR:1990.0,1846.0] || -> .
% 0.69/0.88 1992[7:Spt:1991.0,269.0,1927.0] || greater(equilibrium(skc1),skf5(skc1))*r -> .
% 0.69/0.88 1993[7:Spt:1991.0,269.1] || -> greater(skf5(skc1),equilibrium(skc1))*l.
% 0.69/0.88 1994[7:MRR:1867.1,1993.0] environment(u) || greater_or_equal(growth_rate(v,skf3(skf5(skc1))),zero)*+ subpopulations(first_movers,v,u,skf3(skf5(skc1)))* -> SkP1(skf3(skf5(skc1))) outcompetes(v,first_movers,skf3(skf5(skc1))).
% 0.69/0.88 2022[8:Spt:1994.0,1994.1,1994.2,1994.4] environment(u) || greater_or_equal(growth_rate(v,skf3(skf5(skc1))),zero)*+ subpopulations(first_movers,v,u,skf3(skf5(skc1)))* -> outcompetes(v,first_movers,skf3(skf5(skc1))).
% 0.69/0.88 2025[8:Res:4.1,2022.1] environment(u) || greater(growth_rate(v,skf3(skf5(skc1))),zero) subpopulations(first_movers,v,u,skf3(skf5(skc1)))* -> outcompetes(v,first_movers,skf3(skf5(skc1))).
% 0.69/0.88 2032[8:Res:11.1,2025.2] environment(skc1) || in_environment(skc1,skf5(skc1)) greater(growth_rate(efficient_producers,skf3(skf5(skc1))),zero) -> outcompetes(efficient_producers,first_movers,skf3(skf5(skc1)))*.
% 0.69/0.88 2033[8:SSi:2032.0,2.0,1.0] || in_environment(skc1,skf5(skc1)) greater(growth_rate(efficient_producers,skf3(skf5(skc1))),zero) -> outcompetes(efficient_producers,first_movers,skf3(skf5(skc1)))*.
% 0.69/0.88 2034[8:MRR:2033.0,2033.2,38.0,3.0] || greater(growth_rate(efficient_producers,skf3(skf5(skc1))),zero)*l -> .
% 0.69/0.88 2040[8:NCh:15.2,15.0,2034.0,82.0] || greater(growth_rate(first_movers,skf3(skf5(skc1))),zero)*l -> .
% 0.69/0.88 2045[8:Res:9.1,2040.0] SkP1(skf3(skf5(skc1))) || -> .
% 0.69/0.88 2050[8:SoR:2045.0,1862.2] || greater(skf3(skf5(skc1)),equilibrium(skc1)) in_environment(skc1,skf5(skc1))* -> .
% 0.69/0.88 2052[8:MRR:2050.1,38.0] || greater(skf3(skf5(skc1)),equilibrium(skc1))*l -> .
% 0.69/0.88 2057[0:OCh:15.1,15.0,1731.3,9.1] SkP1(skf3(u)) || equal(skf3(u),equilibrium(skc1)) in_environment(skc1,u)* greater(skf3(u),skf5(skc1)) -> greater(zero,zero).
% 0.69/0.88 2066[8:NCh:15.2,15.0,2052.0,1561.0] || greater(skf5(skc1),equilibrium(skc1))*l -> .
% 0.69/0.88 2068[8:MRR:2066.0,1993.0] || -> .
% 0.69/0.88 2069[8:Spt:2068.0,1994.3] || -> SkP1(skf3(skf5(skc1)))*.
% 0.69/0.88 2070[8:MRR:84.0,2069.0] || -> greater(zero,growth_rate(first_movers,skf3(skf5(skc1))))*r.
% 0.69/0.88 2075[8:Res:2070.0,28.0] || greater_or_equal(growth_rate(u,skf3(skf5(skc1))),zero)* subpopulations(first_movers,u,skc1,skf3(skf5(skc1))) -> outcompetes(u,first_movers,skf3(skf5(skc1))).
% 0.69/0.88 2087[8:Res:4.1,2075.0] || greater(growth_rate(u,skf3(skf5(skc1))),zero) subpopulations(first_movers,u,skc1,skf3(skf5(skc1)))* -> outcompetes(u,first_movers,skf3(skf5(skc1))).
% 0.69/0.88 2098[8:Res:11.1,2087.1] || in_environment(skc1,skf5(skc1)) greater(growth_rate(efficient_producers,skf3(skf5(skc1))),zero) -> outcompetes(efficient_producers,first_movers,skf3(skf5(skc1)))*.
% 0.69/0.88 2099[8:MRR:2098.0,2098.2,38.0,3.0] || greater(growth_rate(efficient_producers,skf3(skf5(skc1))),zero)*l -> .
% 0.69/0.88 2105[8:NCh:15.2,15.0,2099.0,82.0] || greater(growth_rate(first_movers,skf3(skf5(skc1))),zero)*l -> .
% 0.69/0.88 2111[8:NCh:15.2,15.0,2105.0,9.1] SkP1(skf3(skf5(skc1))) || greater(zero,zero)* -> .
% 0.69/0.88 2116[8:SSi:2111.0,2069.0] || greater(zero,zero)* -> .
% 0.69/0.88 2117[8:MRR:2116.0,1846.0] || -> .
% 0.69/0.88 2118[6:Spt:2117.0,1839.1,1846.0] || greater(zero,zero)* -> .
% 0.69/0.88 2119[6:Spt:2117.0,1839.0,1839.2] || equal(skf3(skf5(skc1)),equilibrium(skc1)) -> SkP1(skf3(skf5(skc1)))*.
% 0.69/0.88 2122[6:MRR:1840.1,2118.0] || greater(skf3(skf5(skc1)),equilibrium(skc1)) -> SkP1(skf3(skf5(skc1)))*.
% 0.69/0.88 2135[6:SoR:432.0,2122.1] || greater(skf3(skf5(skc1)),skf5(skc1)) in_environment(skc1,skf5(skc1)) greater(skf3(skf5(skc1)),equilibrium(skc1)) -> greater(zero,growth_rate(first_movers,skf3(skf5(skc1))))*r.
% 0.69/0.88 2137[6:MRR:2135.0,2135.1,1561.0,38.0] || greater(skf3(skf5(skc1)),equilibrium(skc1)) -> greater(zero,growth_rate(first_movers,skf3(skf5(skc1))))*r.
% 0.69/0.88 2175[0:SoR:434.0,1678.2] || greater(skf3(u),skf5(skc1)) in_environment(skc1,u) in_environment(skc1,u) equal(skf3(u),equilibrium(skc1)) -> SkP1(skf3(u))*.
% 0.69/0.88 2176[0:Obv:2175.1] || greater(skf3(u),skf5(skc1)) in_environment(skc1,u) equal(skf3(u),equilibrium(skc1)) -> SkP1(skf3(u))*.
% 0.69/0.88 2177[7:Spt:269.0] || -> greater(equilibrium(skc1),skf5(skc1))*r.
% 0.69/0.88 2179[7:MRR:1828.0,2177.0] || -> greater(zero,growth_rate(first_movers,equilibrium(skc1)))*r.
% 0.69/0.88 2189[7:OCh:15.1,15.0,2179.0,9.1] SkP1(equilibrium(skc1)) || -> greater(zero,zero)*.
% 0.69/0.88 2194[7:SSi:2189.0,1825.0] || -> greater(zero,zero)*.
% 0.69/0.88 2195[7:MRR:2194.0,2118.0] || -> .
% 0.69/0.88 2198[7:Spt:2195.0,269.0,2177.0] || greater(equilibrium(skc1),skf5(skc1))*r -> .
% 0.69/0.88 2199[7:Spt:2195.0,269.1] || -> greater(skf5(skc1),equilibrium(skc1))*l.
% 0.69/0.88 2228[6:OCh:15.1,15.0,2137.1,9.1] SkP1(skf3(skf5(skc1))) || greater(skf3(skf5(skc1)),equilibrium(skc1))*l -> greater(zero,zero).
% 0.69/0.88 2233[6:MRR:2228.0,2228.2,2122.1,2118.0] || greater(skf3(skf5(skc1)),equilibrium(skc1))*l -> .
% 0.69/0.88 2236[6:NCh:15.2,15.0,2233.0,1561.0] || greater(skf5(skc1),equilibrium(skc1))*l -> .
% 0.69/0.88 2238[7:MRR:2236.0,2199.0] || -> .
% 0.69/0.88 2239[4:Spt:2238.0,67.0,1563.0] || equal(skf3(equilibrium(skc1)),equilibrium(skc1))** -> .
% 0.69/0.88 2240[4:Spt:2238.0,67.1] || -> greater(skf3(equilibrium(skc1)),equilibrium(skc1))*l.
% 0.69/0.88 2243[0:MRR:2057.0,2176.3] || equal(skf3(u),equilibrium(skc1)) in_environment(skc1,u)* greater(skf3(u),skf5(skc1)) -> greater(zero,zero).
% 0.69/0.88 2250[5:Spt:1839.1] || -> greater(zero,zero)*.
% 0.69/0.88 2251[5:MRR:417.2,2250.0] SkP0(skf3(u)) || in_environment(skc1,u)* -> .
% 0.69/0.88 2257[5:MRR:1845.0,2250.0] || in_environment(skc1,u) greater(skf3(u),equilibrium(skc1)) -> SkP1(skf3(u))*.
% 0.69/0.88 2263[5:MRR:120.2,2250.0] SkP0(u) environment(v) || greater_or_equal(growth_rate(w,u),zero)*+ subpopulations(first_movers,w,v,u)* -> outcompetes(w,first_movers,u).
% 0.69/0.88 2266[5:MRR:87.2,2251.0] || in_environment(skc1,u) greater_or_equal(skf3(u),equilibrium(skc1))* -> SkP1(skf3(u)) greater(growth_rate(efficient_producers,skf3(u)),zero).
% 0.69/0.88 2271[5:MRR:1832.4,2263.0] environment(u) || greater(skf5(skc1),equilibrium(skc1))+ greater_or_equal(growth_rate(v,skf3(skf5(skc1))),zero)* subpopulations(first_movers,v,u,skf3(skf5(skc1)))* -> SkP1(skf3(skf5(skc1))) outcompetes(v,first_movers,skf3(skf5(skc1))).
% 0.69/0.88 2310[5:Res:6.1,2266.1] || in_environment(skc1,equilibrium(skc1)) in_environment(skc1,equilibrium(skc1)) -> SkP1(skf3(equilibrium(skc1))) greater(growth_rate(efficient_producers,skf3(equilibrium(skc1))),zero)*l.
% 0.69/0.88 2311[5:Obv:2310.0] || in_environment(skc1,equilibrium(skc1)) -> SkP1(skf3(equilibrium(skc1))) greater(growth_rate(efficient_producers,skf3(equilibrium(skc1))),zero)*l.
% 0.69/0.88 2312[5:MRR:2311.0,58.0] || -> SkP1(skf3(equilibrium(skc1))) greater(growth_rate(efficient_producers,skf3(equilibrium(skc1))),zero)*l.
% 0.69/0.88 2313[6:Spt:2312.0] || -> SkP1(skf3(equilibrium(skc1)))*.
% 0.69/0.88 2314[6:SoR:432.0,2313.0] || greater(skf3(equilibrium(skc1)),skf5(skc1)) in_environment(skc1,equilibrium(skc1)) -> greater(zero,growth_rate(first_movers,skf3(equilibrium(skc1))))*r.
% 0.69/0.88 2317[6:MRR:2314.1,58.0] || greater(skf3(equilibrium(skc1)),skf5(skc1)) -> greater(zero,growth_rate(first_movers,skf3(equilibrium(skc1))))*r.
% 0.69/0.88 2358[6:Res:2317.1,23.1] environment(u) || greater(skf3(equilibrium(skc1)),skf5(skc1))+ greater_or_equal(growth_rate(v,skf3(equilibrium(skc1))),zero)* subpopulations(first_movers,v,u,skf3(equilibrium(skc1)))* -> outcompetes(v,first_movers,skf3(equilibrium(skc1))).
% 0.69/0.88 2389[7:Spt:2271.0,2271.2,2271.3,2271.5] environment(u) || greater_or_equal(growth_rate(v,skf3(skf5(skc1))),zero)*+ subpopulations(first_movers,v,u,skf3(skf5(skc1)))* -> outcompetes(v,first_movers,skf3(skf5(skc1))).
% 0.69/0.88 2392[7:Res:4.1,2389.1] environment(u) || greater(growth_rate(v,skf3(skf5(skc1))),zero) subpopulations(first_movers,v,u,skf3(skf5(skc1)))* -> outcompetes(v,first_movers,skf3(skf5(skc1))).
% 0.69/0.88 2401[7:Res:11.1,2392.2] environment(skc1) || in_environment(skc1,skf5(skc1)) greater(growth_rate(efficient_producers,skf3(skf5(skc1))),zero) -> outcompetes(efficient_producers,first_movers,skf3(skf5(skc1)))*.
% 0.69/0.88 2402[7:SSi:2401.0,2.0,1.0] || in_environment(skc1,skf5(skc1)) greater(growth_rate(efficient_producers,skf3(skf5(skc1))),zero) -> outcompetes(efficient_producers,first_movers,skf3(skf5(skc1)))*.
% 0.69/0.88 2403[7:MRR:2402.0,2402.2,38.0,3.0] || greater(growth_rate(efficient_producers,skf3(skf5(skc1))),zero)*l -> .
% 0.69/0.88 2409[7:NCh:15.2,15.0,2403.0,82.0] || greater(growth_rate(first_movers,skf3(skf5(skc1))),zero)*l -> .
% 0.69/0.88 2414[7:Res:9.1,2409.0] SkP1(skf3(skf5(skc1))) || -> .
% 0.69/0.88 2423[7:SoR:2414.0,2257.2] || greater(skf3(skf5(skc1)),equilibrium(skc1)) in_environment(skc1,skf5(skc1))* -> .
% 0.69/0.88 2425[7:MRR:2423.1,38.0] || greater(skf3(skf5(skc1)),equilibrium(skc1))*l -> .
% 0.69/0.88 2426[7:NCh:15.2,15.0,2425.0,1561.0] || greater(skf5(skc1),equilibrium(skc1))*l -> .
% 0.69/0.88 2428[7:MRR:269.1,2426.0] || -> greater(equilibrium(skc1),skf5(skc1))*r.
% 0.69/0.88 2437[6:NCh:15.2,15.0,2358.1,2240.0] environment(u) || greater(equilibrium(skc1),skf5(skc1)) greater_or_equal(growth_rate(v,skf3(equilibrium(skc1))),zero)* subpopulations(first_movers,v,u,skf3(equilibrium(skc1)))* -> outcompetes(v,first_movers,skf3(equilibrium(skc1))).
% 0.69/0.88 2439[7:MRR:2437.1,2428.0] environment(u) || greater_or_equal(growth_rate(v,skf3(equilibrium(skc1))),zero)*+ subpopulations(first_movers,v,u,skf3(equilibrium(skc1)))* -> outcompetes(v,first_movers,skf3(equilibrium(skc1))).
% 0.69/0.88 2442[7:Res:4.1,2439.1] environment(u) || greater(growth_rate(v,skf3(equilibrium(skc1))),zero) subpopulations(first_movers,v,u,skf3(equilibrium(skc1)))* -> outcompetes(v,first_movers,skf3(equilibrium(skc1))).
% 0.69/0.88 2459[7:Res:11.1,2442.2] environment(skc1) || in_environment(skc1,equilibrium(skc1)) greater(growth_rate(efficient_producers,skf3(equilibrium(skc1))),zero) -> outcompetes(efficient_producers,first_movers,skf3(equilibrium(skc1)))*.
% 0.69/0.88 2460[7:SSi:2459.0,2.0,1.0] || in_environment(skc1,equilibrium(skc1)) greater(growth_rate(efficient_producers,skf3(equilibrium(skc1))),zero) -> outcompetes(efficient_producers,first_movers,skf3(equilibrium(skc1)))*.
% 0.69/0.88 2461[7:MRR:2460.0,2460.2,58.0,3.0] || greater(growth_rate(efficient_producers,skf3(equilibrium(skc1))),zero)*l -> .
% 0.69/0.88 2463[7:NCh:15.2,15.0,2461.0,78.2] || greater(growth_rate(first_movers,skf3(equilibrium(skc1))),zero)*l greater(skf3(equilibrium(skc1)),skf5(skc1)) in_environment(skc1,equilibrium(skc1)) -> .
% 0.69/0.88 2470[7:MRR:2463.2,58.0] || greater(growth_rate(first_movers,skf3(equilibrium(skc1))),zero)*l greater(skf3(equilibrium(skc1)),skf5(skc1)) -> .
% 0.69/0.88 2492[7:Res:9.1,2470.0] SkP1(skf3(equilibrium(skc1))) || greater(skf3(equilibrium(skc1)),skf5(skc1))*l -> .
% 0.69/0.88 2495[7:SSi:2492.0,2313.0] || greater(skf3(equilibrium(skc1)),skf5(skc1))*l -> .
% 0.69/0.88 2497[7:NCh:15.2,15.0,2495.0,2240.0] || greater(equilibrium(skc1),skf5(skc1))*r -> .
% 0.69/0.88 2499[7:MRR:2497.0,2428.0] || -> .
% 0.69/0.88 2500[7:Spt:2499.0,2271.1,2271.4] || greater(skf5(skc1),equilibrium(skc1)) -> SkP1(skf3(skf5(skc1)))*.
% 0.69/0.88 2501[7:SoR:432.0,2500.1] || greater(skf3(skf5(skc1)),skf5(skc1)) in_environment(skc1,skf5(skc1)) greater(skf5(skc1),equilibrium(skc1)) -> greater(zero,growth_rate(first_movers,skf3(skf5(skc1))))*r.
% 0.69/0.88 2503[7:MRR:2501.0,2501.1,1561.0,38.0] || greater(skf5(skc1),equilibrium(skc1)) -> greater(zero,growth_rate(first_movers,skf3(skf5(skc1))))*r.
% 0.69/0.88 2511[8:Spt:269.1] || -> greater(skf5(skc1),equilibrium(skc1))*l.
% 0.69/0.88 2512[8:MRR:2500.0,2511.0] || -> SkP1(skf3(skf5(skc1)))*.
% 0.69/0.88 2513[8:MRR:2503.0,2511.0] || -> greater(zero,growth_rate(first_movers,skf3(skf5(skc1))))*r.
% 0.69/0.88 2519[8:Res:2513.0,28.0] || greater_or_equal(growth_rate(u,skf3(skf5(skc1))),zero)* subpopulations(first_movers,u,skc1,skf3(skf5(skc1))) -> outcompetes(u,first_movers,skf3(skf5(skc1))).
% 0.69/0.88 2539[8:Res:4.1,2519.0] || greater(growth_rate(u,skf3(skf5(skc1))),zero) subpopulations(first_movers,u,skc1,skf3(skf5(skc1)))* -> outcompetes(u,first_movers,skf3(skf5(skc1))).
% 0.69/0.88 2564[8:Res:11.1,2539.1] || in_environment(skc1,skf5(skc1)) greater(growth_rate(efficient_producers,skf3(skf5(skc1))),zero) -> outcompetes(efficient_producers,first_movers,skf3(skf5(skc1)))*.
% 0.69/0.88 2565[8:MRR:2564.0,2564.2,38.0,3.0] || greater(growth_rate(efficient_producers,skf3(skf5(skc1))),zero)*l -> .
% 0.69/0.88 2571[8:NCh:15.2,15.0,2565.0,82.0] || greater(growth_rate(first_movers,skf3(skf5(skc1))),zero)*l -> .
% 0.69/0.88 2581[8:NCh:15.2,15.0,2571.0,9.1] SkP1(skf3(skf5(skc1))) || greater(zero,zero)* -> .
% 0.69/0.88 2586[8:SSi:2581.0,2512.0] || greater(zero,zero)* -> .
% 0.69/0.88 2587[8:MRR:2586.0,2250.0] || -> .
% 0.69/0.88 2588[8:Spt:2587.0,269.1,2511.0] || greater(skf5(skc1),equilibrium(skc1))*l -> .
% 0.69/0.88 2589[8:Spt:2587.0,269.0] || -> greater(equilibrium(skc1),skf5(skc1))*r.
% 0.69/0.88 2590[8:MRR:2437.1,2589.0] environment(u) || greater_or_equal(growth_rate(v,skf3(equilibrium(skc1))),zero)*+ subpopulations(first_movers,v,u,skf3(equilibrium(skc1)))* -> outcompetes(v,first_movers,skf3(equilibrium(skc1))).
% 0.69/0.88 2617[8:Res:4.1,2590.1] environment(u) || greater(growth_rate(v,skf3(equilibrium(skc1))),zero) subpopulations(first_movers,v,u,skf3(equilibrium(skc1)))* -> outcompetes(v,first_movers,skf3(equilibrium(skc1))).
% 0.69/0.88 2635[8:Res:11.1,2617.2] environment(skc1) || in_environment(skc1,equilibrium(skc1)) greater(growth_rate(efficient_producers,skf3(equilibrium(skc1))),zero) -> outcompetes(efficient_producers,first_movers,skf3(equilibrium(skc1)))*.
% 0.69/0.88 2636[8:SSi:2635.0,2.0,1.0] || in_environment(skc1,equilibrium(skc1)) greater(growth_rate(efficient_producers,skf3(equilibrium(skc1))),zero) -> outcompetes(efficient_producers,first_movers,skf3(equilibrium(skc1)))*.
% 0.69/0.88 2637[8:MRR:2636.0,2636.2,58.0,3.0] || greater(growth_rate(efficient_producers,skf3(equilibrium(skc1))),zero)*l -> .
% 0.69/0.88 2639[8:NCh:15.2,15.0,2637.0,78.2] || greater(growth_rate(first_movers,skf3(equilibrium(skc1))),zero)*l greater(skf3(equilibrium(skc1)),skf5(skc1)) in_environment(skc1,equilibrium(skc1)) -> .
% 0.69/0.88 2646[8:MRR:2639.2,58.0] || greater(growth_rate(first_movers,skf3(equilibrium(skc1))),zero)*l greater(skf3(equilibrium(skc1)),skf5(skc1)) -> .
% 0.69/0.88 2659[8:Res:9.1,2646.0] SkP1(skf3(equilibrium(skc1))) || greater(skf3(equilibrium(skc1)),skf5(skc1))*l -> .
% 0.69/0.88 2662[8:SSi:2659.0,2313.0] || greater(skf3(equilibrium(skc1)),skf5(skc1))*l -> .
% 0.69/0.88 2674[8:NCh:15.2,15.0,2662.0,2240.0] || greater(equilibrium(skc1),skf5(skc1))*r -> .
% 0.69/0.88 2676[8:MRR:2674.0,2589.0] || -> .
% 0.69/0.88 2677[6:Spt:2676.0,2312.0,2313.0] || SkP1(skf3(equilibrium(skc1)))* -> .
% 0.69/0.88 2678[6:Spt:2676.0,2312.1] || -> greater(growth_rate(efficient_producers,skf3(equilibrium(skc1))),zero)*l.
% 0.69/0.88 2686[6:Res:2257.2,2677.0] || in_environment(skc1,equilibrium(skc1))* greater(skf3(equilibrium(skc1)),equilibrium(skc1)) -> .
% 0.69/0.88 2688[6:MRR:2686.0,2686.1,58.0,2240.0] || -> .
% 0.69/0.88 2689[5:Spt:2688.0,1839.1,2250.0] || greater(zero,zero)* -> .
% 0.69/0.88 2690[5:Spt:2688.0,1839.0,1839.2] || equal(skf3(skf5(skc1)),equilibrium(skc1)) -> SkP1(skf3(skf5(skc1)))*.
% 0.69/0.88 2693[5:MRR:1840.1,2689.0] || greater(skf3(skf5(skc1)),equilibrium(skc1)) -> SkP1(skf3(skf5(skc1)))*.
% 0.69/0.88 2702[5:SoR:84.0,2693.1] || greater(skf3(skf5(skc1)),equilibrium(skc1)) -> greater(zero,growth_rate(first_movers,skf3(skf5(skc1))))*r.
% 0.69/0.88 2735[6:Spt:141.0] || -> SkP0(skf3(equilibrium(skc1)))*.
% 0.69/0.88 2736[6:SoR:434.0,2735.0] || greater(skf3(equilibrium(skc1)),skf5(skc1)) in_environment(skc1,equilibrium(skc1))* -> .
% 0.69/0.88 2739[6:MRR:2736.1,58.0] || greater(skf3(equilibrium(skc1)),skf5(skc1))*l -> .
% 0.69/0.88 2740[6:NCh:15.2,15.0,2739.0,2240.0] || greater(equilibrium(skc1),skf5(skc1))*r -> .
% 0.69/0.88 2742[6:MRR:269.0,2740.0] || -> greater(skf5(skc1),equilibrium(skc1))*l.
% 0.69/0.88 2764[5:OCh:15.1,15.0,2702.1,9.1] SkP1(skf3(skf5(skc1))) || greater(skf3(skf5(skc1)),equilibrium(skc1))*l -> greater(zero,zero).
% 0.69/0.88 2769[5:MRR:2764.0,2764.2,2693.1,2689.0] || greater(skf3(skf5(skc1)),equilibrium(skc1))*l -> .
% 0.69/0.88 2776[0:SoR:89.0,1793.3] || equal(skf3(u),skf5(skc1)) in_environment(skc1,u) greater(skf3(u),equilibrium(skc1)) in_environment(skc1,u) equal(skf3(u),skf5(skc1)) -> greater(zero,growth_rate(first_movers,skf3(u)))*r.
% 0.69/0.88 2780[0:Obv:2776.1] || greater(skf3(u),equilibrium(skc1)) in_environment(skc1,u) equal(skf3(u),skf5(skc1)) -> greater(zero,growth_rate(first_movers,skf3(u)))*r.
% 0.69/0.88 2782[5:NCh:15.2,15.0,2769.0,1561.0] || greater(skf5(skc1),equilibrium(skc1))*l -> .
% 0.69/0.88 2784[6:MRR:2782.0,2742.0] || -> .
% 0.69/0.88 2785[6:Spt:2784.0,141.0,2735.0] || SkP0(skf3(equilibrium(skc1)))* -> .
% 0.69/0.88 2786[6:Spt:2784.0,141.1,141.2] || -> SkP1(skf3(equilibrium(skc1))) greater(growth_rate(efficient_producers,skf3(equilibrium(skc1))),zero)*l.
% 0.69/0.88 2787[5:MRR:269.1,2782.0] || -> greater(equilibrium(skc1),skf5(skc1))*r.
% 0.69/0.88 2791[7:Spt:2786.0] || -> SkP1(skf3(equilibrium(skc1)))*.
% 0.69/0.88 2794[7:SoR:432.0,2791.0] || greater(skf3(equilibrium(skc1)),skf5(skc1)) in_environment(skc1,equilibrium(skc1)) -> greater(zero,growth_rate(first_movers,skf3(equilibrium(skc1))))*r.
% 0.69/0.88 2797[7:MRR:2794.1,58.0] || greater(skf3(equilibrium(skc1)),skf5(skc1)) -> greater(zero,growth_rate(first_movers,skf3(equilibrium(skc1))))*r.
% 0.69/0.88 2798[6:Res:1771.2,2785.0] || greater(skf3(equilibrium(skc1)),equilibrium(skc1)) in_environment(skc1,equilibrium(skc1)) -> SkP1(skf3(equilibrium(skc1)))*.
% 0.69/0.88 2815[7:OCh:15.1,15.0,2797.1,9.1] SkP1(skf3(equilibrium(skc1))) || greater(skf3(equilibrium(skc1)),skf5(skc1))*l -> greater(zero,zero).
% 0.69/0.88 2820[7:SSi:2815.0,2791.0] || greater(skf3(equilibrium(skc1)),skf5(skc1))*l -> greater(zero,zero).
% 0.69/0.88 2821[7:MRR:2820.1,2689.0] || greater(skf3(equilibrium(skc1)),skf5(skc1))*l -> .
% 0.69/0.88 2824[7:NCh:15.2,15.0,2821.0,2240.0] || greater(equilibrium(skc1),skf5(skc1))*r -> .
% 0.69/0.88 2826[7:MRR:2824.0,2787.0] || -> .
% 0.69/0.88 2827[7:Spt:2826.0,2786.0,2791.0] || SkP1(skf3(equilibrium(skc1)))* -> .
% 0.69/0.88 2828[7:Spt:2826.0,2786.1] || -> greater(growth_rate(efficient_producers,skf3(equilibrium(skc1))),zero)*l.
% 0.69/0.88 2830[6:MRR:2798.0,2798.1,2240.0,58.0] || -> SkP1(skf3(equilibrium(skc1)))*.
% 0.69/0.88 2831[7:MRR:2830.0,2827.0] || -> .
% 0.69/0.88 2834[1:Spt:2831.0,51.0,57.0] || equal(skf6(skc1),equilibrium(skc1))** -> .
% 0.69/0.88 2835[1:Spt:2831.0,51.1] || -> greater(skf6(skc1),equilibrium(skc1))*l.
% 0.69/0.88 2836[0:SSi:68.1,68.0,2.0,1.0,2.0,1.0] || -> equal(skf3(skf6(skc1)),skf6(skc1)) greater(skf3(skf6(skc1)),skf6(skc1))*l.
% 0.69/0.88 2838[0:Res:39.0,72.0] || -> greater(skf5(skc1),skf6(skc1)) equal(skf6(skc1),skf5(skc1)) greater(skf6(skc1),skf5(skc1))*l.
% 0.69/0.88 2850[2:Spt:66.0] || -> equal(skf3(skf5(skc1)),skf5(skc1))**.
% 0.69/0.88 2852[2:Rew:2850.0,82.0] || -> greater(growth_rate(efficient_producers,skf5(skc1)),growth_rate(first_movers,skf5(skc1)))*l.
% 0.69/0.88 2858[2:SpR:2850.0,11.1] || in_environment(skc1,skf5(skc1)) -> subpopulations(first_movers,efficient_producers,skc1,skf5(skc1))*.
% 0.69/0.88 2861[2:SpR:2850.0,1793.3] || equal(skf3(skf5(skc1)),skf5(skc1)) in_environment(skc1,skf5(skc1))* greater(skf3(skf5(skc1)),equilibrium(skc1)) -> SkP1(skf5(skc1)).
% 0.69/0.88 2863[2:SpR:2850.0,1678.2] || equal(skf3(skf5(skc1)),equilibrium(skc1)) in_environment(skc1,skf5(skc1)) -> SkP0(skf5(skc1)) SkP1(skf3(skf5(skc1)))*.
% 0.69/0.88 2865[2:SpL:2850.0,3.0] || outcompetes(efficient_producers,first_movers,skf5(skc1))* -> .
% 0.69/0.88 2868[2:SpL:2850.0,87.1] || in_environment(skc1,skf5(skc1)) greater_or_equal(skf5(skc1),equilibrium(skc1)) -> SkP0(skf3(skf5(skc1))) SkP1(skf3(skf5(skc1))) greater(growth_rate(efficient_producers,skf3(skf5(skc1))),zero)*l.
% 0.69/0.88 2870[2:MRR:2858.0,38.0] || -> subpopulations(first_movers,efficient_producers,skc1,skf5(skc1))*.
% 0.69/0.88 2871[2:Rew:2850.0,2863.3,2850.0,2863.0] || equal(skf5(skc1),equilibrium(skc1)) in_environment(skc1,skf5(skc1))* -> SkP0(skf5(skc1)) SkP1(skf5(skc1)).
% 0.69/0.88 2872[2:MRR:2871.1,38.0] || equal(skf5(skc1),equilibrium(skc1)) -> SkP0(skf5(skc1))* SkP1(skf5(skc1)).
% 0.69/0.88 2876[2:Rew:2850.0,2861.2,2850.0,2861.0] || equal(skf5(skc1),skf5(skc1)) in_environment(skc1,skf5(skc1))* greater(skf5(skc1),equilibrium(skc1)) -> SkP1(skf5(skc1)).
% 0.69/0.88 2877[2:Obv:2876.0] || in_environment(skc1,skf5(skc1))* greater(skf5(skc1),equilibrium(skc1)) -> SkP1(skf5(skc1)).
% 0.69/0.88 2878[2:MRR:2877.0,38.0] || greater(skf5(skc1),equilibrium(skc1)) -> SkP1(skf5(skc1))*.
% 0.69/0.88 2879[2:Rew:2850.0,2868.4,2850.0,2868.3,2850.0,2868.2] || in_environment(skc1,skf5(skc1)) greater_or_equal(skf5(skc1),equilibrium(skc1))* -> SkP0(skf5(skc1)) SkP1(skf5(skc1)) greater(growth_rate(efficient_producers,skf5(skc1)),zero).
% 0.69/0.88 2880[2:MRR:2879.0,38.0] || greater_or_equal(skf5(skc1),equilibrium(skc1))* -> SkP0(skf5(skc1)) SkP1(skf5(skc1)) greater(growth_rate(efficient_producers,skf5(skc1)),zero).
% 0.69/0.88 2894[3:Spt:2872.1] || -> SkP0(skf5(skc1))*.
% 0.69/0.88 2895[2:SpR:8.1,2852.0] SkP0(skf5(skc1)) || -> greater(zero,growth_rate(first_movers,skf5(skc1)))*r.
% 0.69/0.88 2896[2:OCh:15.1,15.0,2852.0,10.1] SkP1(skf5(skc1)) || -> greater(zero,growth_rate(first_movers,skf5(skc1)))*r.
% 0.69/0.88 2897[2:Rew:7.1,2895.1] SkP0(skf5(skc1)) || -> greater(zero,zero)*.
% 0.69/0.88 2898[3:SSi:2897.0,2894.0] || -> greater(zero,zero)*.
% 0.69/0.88 2903[3:MRR:414.1,2898.0] SkP0(u) || subpopulations(first_movers,efficient_producers,skc1,u)* -> outcompetes(efficient_producers,first_movers,u).
% 0.69/0.88 2927[3:Res:2870.0,2903.1] SkP0(skf5(skc1)) || -> outcompetes(efficient_producers,first_movers,skf5(skc1))*.
% 0.69/0.88 2928[3:SSi:2927.0,2894.0] || -> outcompetes(efficient_producers,first_movers,skf5(skc1))*.
% 0.69/0.88 2929[3:MRR:2928.0,2865.0] || -> .
% 0.69/0.88 2930[3:Spt:2929.0,2872.1,2894.0] || SkP0(skf5(skc1))* -> .
% 0.69/0.88 2931[3:Spt:2929.0,2872.0,2872.2] || equal(skf5(skc1),equilibrium(skc1)) -> SkP1(skf5(skc1))*.
% 0.69/0.88 2934[3:MRR:2880.1,2930.0] || greater_or_equal(skf5(skc1),equilibrium(skc1))* -> SkP1(skf5(skc1)) greater(growth_rate(efficient_producers,skf5(skc1)),zero).
% 0.69/0.88 2984[4:Spt:2934.1] || -> SkP1(skf5(skc1))*.
% 0.69/0.88 2985[4:MRR:2896.0,2984.0] || -> greater(zero,growth_rate(first_movers,skf5(skc1)))*r.
% 0.69/0.88 2988[4:Res:2985.0,28.0] || greater_or_equal(growth_rate(u,skf5(skc1)),zero)* subpopulations(first_movers,u,skc1,skf5(skc1)) -> outcompetes(u,first_movers,skf5(skc1)).
% 0.72/0.88 2989[4:OCh:15.1,15.0,2985.0,9.1] SkP1(skf5(skc1)) || -> greater(zero,zero)*.
% 0.72/0.88 2994[4:SSi:2989.0,2984.0] || -> greater(zero,zero)*.
% 0.72/0.88 3045[4:Res:4.1,2988.0] || greater(growth_rate(u,skf5(skc1)),zero) subpopulations(first_movers,u,skc1,skf5(skc1))* -> outcompetes(u,first_movers,skf5(skc1)).
% 0.72/0.88 3109[4:Res:2870.0,3045.1] || greater(growth_rate(efficient_producers,skf5(skc1)),zero) -> outcompetes(efficient_producers,first_movers,skf5(skc1))*.
% 0.72/0.88 3110[4:MRR:3109.1,2865.0] || greater(growth_rate(efficient_producers,skf5(skc1)),zero)*l -> .
% 0.72/0.88 3116[4:NCh:15.2,15.0,3110.0,2852.0] || greater(growth_rate(first_movers,skf5(skc1)),zero)*l -> .
% 0.72/0.88 3122[4:NCh:15.2,15.0,3116.0,9.1] SkP1(skf5(skc1)) || greater(zero,zero)* -> .
% 0.72/0.88 3127[4:SSi:3122.0,2984.0] || greater(zero,zero)* -> .
% 0.72/0.88 3128[4:MRR:3127.0,2994.0] || -> .
% 0.72/0.88 3129[4:Spt:3128.0,2934.1,2984.0] || SkP1(skf5(skc1))* -> .
% 0.72/0.88 3130[4:Spt:3128.0,2934.0,2934.2] || greater_or_equal(skf5(skc1),equilibrium(skc1))* -> greater(growth_rate(efficient_producers,skf5(skc1)),zero).
% 0.72/0.88 3132[4:MRR:2878.1,3129.0] || greater(skf5(skc1),equilibrium(skc1))*l -> .
% 0.72/0.88 3240[5:Spt:2838.1] || -> equal(skf6(skc1),skf5(skc1))**.
% 0.72/0.88 3241[5:Rew:3240.0,2835.0] || -> greater(skf5(skc1),equilibrium(skc1))*l.
% 0.72/0.88 3250[5:MRR:3241.0,3132.0] || -> .
% 0.72/0.88 3253[5:Spt:3250.0,2838.1,3240.0] || equal(skf6(skc1),skf5(skc1))** -> .
% 0.72/0.88 3254[5:Spt:3250.0,2838.0,2838.2] || -> greater(skf5(skc1),skf6(skc1)) greater(skf6(skc1),skf5(skc1))*l.
% 0.72/0.88 3327[0:Res:39.0,2243.1] || equal(skf3(skf6(skc1)),equilibrium(skc1)) greater(skf3(skf6(skc1)),skf5(skc1))*l -> greater(zero,zero).
% 0.72/0.88 3332[0:NCh:15.2,15.0,3327.1,2836.1] || equal(skf3(skf6(skc1)),equilibrium(skc1))** greater(skf6(skc1),skf5(skc1)) -> greater(zero,zero) equal(skf3(skf6(skc1)),skf6(skc1)).
% 0.72/0.88 3337[0:SoR:432.0,1794.3] || greater(skf3(u),skf5(skc1)) in_environment(skc1,u) greater(skf3(u),equilibrium(skc1)) in_environment(skc1,u) greater(skf3(u),skf5(skc1)) -> greater(zero,growth_rate(first_movers,skf3(u)))*r.
% 0.72/0.88 3345[0:Obv:3337.1] || greater(skf3(u),equilibrium(skc1)) in_environment(skc1,u) greater(skf3(u),skf5(skc1)) -> greater(zero,growth_rate(first_movers,skf3(u)))*r.
% 0.72/0.88 3347[6:Spt:3332.2] || -> greater(zero,zero)*.
% 0.72/0.88 3358[6:MRR:1845.0,3347.0] || in_environment(skc1,u) greater(skf3(u),equilibrium(skc1)) -> SkP1(skf3(u))*.
% 0.72/0.88 3435[0:Res:2780.3,23.1] environment(u) || greater(skf3(v),equilibrium(skc1))+ in_environment(skc1,v) equal(skf3(v),skf5(skc1)) greater_or_equal(growth_rate(w,skf3(v)),zero)* subpopulations(first_movers,w,u,skf3(v))* -> outcompetes(w,first_movers,skf3(v)).
% 0.72/0.88 3473[0:Res:3345.3,23.1] environment(u) || greater(skf3(v),equilibrium(skc1))+ in_environment(skc1,v) greater(skf3(v),skf5(skc1)) greater_or_equal(growth_rate(w,skf3(v)),zero)* subpopulations(first_movers,w,u,skf3(v))* -> outcompetes(w,first_movers,skf3(v)).
% 0.72/0.88 3474[0:Res:3345.3,28.0] || greater(skf3(u),equilibrium(skc1)) in_environment(skc1,u) greater(skf3(u),skf5(skc1)) greater_or_equal(growth_rate(v,skf3(u)),zero)* subpopulations(first_movers,v,skc1,skf3(u)) -> outcompetes(v,first_movers,skf3(u)).
% 0.72/0.88 3475[0:OCh:15.1,15.0,3345.3,9.1] SkP1(skf3(u)) || greater(skf3(u),equilibrium(skc1)) in_environment(skc1,u)* greater(skf3(u),skf5(skc1)) -> greater(zero,zero).
% 0.72/0.88 3566[0:NCh:15.2,15.0,3435.1,2836.1] environment(u) || greater(skf6(skc1),equilibrium(skc1)) in_environment(skc1,skf6(skc1)) equal(skf3(skf6(skc1)),skf5(skc1)) greater_or_equal(growth_rate(v,skf3(skf6(skc1))),zero)* subpopulations(first_movers,v,u,skf3(skf6(skc1)))* -> outcompetes(v,first_movers,skf3(skf6(skc1))) equal(skf3(skf6(skc1)),skf6(skc1)).
% 0.72/0.88 3568[1:MRR:3566.1,3566.2,2835.0,39.0] environment(u) || equal(skf3(skf6(skc1)),skf5(skc1)) greater_or_equal(growth_rate(v,skf3(skf6(skc1))),zero)*+ subpopulations(first_movers,v,u,skf3(skf6(skc1)))* -> outcompetes(v,first_movers,skf3(skf6(skc1))) equal(skf3(skf6(skc1)),skf6(skc1)).
% 0.72/0.88 3569[7:Spt:3568.0,3568.2,3568.3,3568.4] environment(u) || greater_or_equal(growth_rate(v,skf3(skf6(skc1))),zero)*+ subpopulations(first_movers,v,u,skf3(skf6(skc1)))* -> outcompetes(v,first_movers,skf3(skf6(skc1))).
% 0.72/0.88 3572[7:Res:4.1,3569.1] environment(u) || greater(growth_rate(v,skf3(skf6(skc1))),zero) subpopulations(first_movers,v,u,skf3(skf6(skc1)))* -> outcompetes(v,first_movers,skf3(skf6(skc1))).
% 0.72/0.88 3582[0:Res:4.1,3474.3] || greater(growth_rate(u,skf3(v)),zero) greater(skf3(v),equilibrium(skc1)) in_environment(skc1,v) greater(skf3(v),skf5(skc1)) subpopulations(first_movers,u,skc1,skf3(v))* -> outcompetes(u,first_movers,skf3(v)).
% 0.72/0.88 3585[7:Res:11.1,3572.2] environment(skc1) || in_environment(skc1,skf6(skc1)) greater(growth_rate(efficient_producers,skf3(skf6(skc1))),zero) -> outcompetes(efficient_producers,first_movers,skf3(skf6(skc1)))*.
% 0.72/0.88 3586[7:SSi:3585.0,2.0,1.0] || in_environment(skc1,skf6(skc1)) greater(growth_rate(efficient_producers,skf3(skf6(skc1))),zero) -> outcompetes(efficient_producers,first_movers,skf3(skf6(skc1)))*.
% 0.72/0.88 3587[7:MRR:3586.0,3586.2,39.0,3.0] || greater(growth_rate(efficient_producers,skf3(skf6(skc1))),zero)*l -> .
% 0.72/0.88 3589[7:NCh:15.2,15.0,3587.0,78.2] || greater(growth_rate(first_movers,skf3(skf6(skc1))),zero)*l greater(skf3(skf6(skc1)),skf5(skc1)) in_environment(skc1,skf6(skc1)) -> .
% 0.72/0.88 3596[7:MRR:3589.2,39.0] || greater(growth_rate(first_movers,skf3(skf6(skc1))),zero)*l greater(skf3(skf6(skc1)),skf5(skc1)) -> .
% 0.72/0.88 3605[0:NCh:15.2,15.0,3473.1,2836.1] environment(u) || greater(skf6(skc1),equilibrium(skc1)) in_environment(skc1,skf6(skc1)) greater(skf3(skf6(skc1)),skf5(skc1)) greater_or_equal(growth_rate(v,skf3(skf6(skc1))),zero)* subpopulations(first_movers,v,u,skf3(skf6(skc1)))* -> outcompetes(v,first_movers,skf3(skf6(skc1))) equal(skf3(skf6(skc1)),skf6(skc1)).
% 0.72/0.88 3627[7:Res:9.1,3596.0] SkP1(skf3(skf6(skc1))) || greater(skf3(skf6(skc1)),skf5(skc1))*l -> .
% 0.72/0.88 3632[7:SoR:3627.0,3358.2] || greater(skf3(skf6(skc1)),skf5(skc1)) greater(skf3(skf6(skc1)),equilibrium(skc1)) in_environment(skc1,skf6(skc1))* -> .
% 0.72/0.88 3634[7:MRR:3632.2,39.0] || greater(skf3(skf6(skc1)),skf5(skc1))*l greater(skf3(skf6(skc1)),equilibrium(skc1)) -> .
% 0.72/0.88 3637[7:NCh:15.2,15.0,3634.0,2836.1] || greater(skf6(skc1),skf5(skc1)) greater(skf3(skf6(skc1)),equilibrium(skc1))*l -> equal(skf3(skf6(skc1)),skf6(skc1)).
% 0.72/0.88 3649[7:NCh:15.2,15.0,3637.1,2836.1] || greater(skf6(skc1),skf5(skc1)) greater(skf6(skc1),equilibrium(skc1)) -> equal(skf3(skf6(skc1)),skf6(skc1))** equal(skf3(skf6(skc1)),skf6(skc1))**.
% 0.72/0.88 3652[7:Obv:3649.2] || greater(skf6(skc1),skf5(skc1)) greater(skf6(skc1),equilibrium(skc1)) -> equal(skf3(skf6(skc1)),skf6(skc1))**.
% 0.72/0.88 3653[7:MRR:3652.1,2835.0] || greater(skf6(skc1),skf5(skc1)) -> equal(skf3(skf6(skc1)),skf6(skc1))**.
% 0.72/0.88 3682[7:SpL:3653.1,3634.0] || greater(skf6(skc1),skf5(skc1)) greater(skf6(skc1),skf5(skc1)) greater(skf3(skf6(skc1)),equilibrium(skc1))*l -> .
% 0.72/0.88 3699[7:Obv:3682.0] || greater(skf6(skc1),skf5(skc1)) greater(skf3(skf6(skc1)),equilibrium(skc1))*l -> .
% 0.72/0.88 3700[7:Rew:3653.1,3699.1] || greater(skf6(skc1),skf5(skc1))*l greater(skf6(skc1),equilibrium(skc1)) -> .
% 0.72/0.88 3701[7:MRR:3700.1,2835.0] || greater(skf6(skc1),skf5(skc1))*l -> .
% 0.72/0.88 3702[7:MRR:3254.1,3701.0] || -> greater(skf5(skc1),skf6(skc1))*r.
% 0.72/0.88 3704[7:OCh:15.1,15.0,3702.0,52.3] stable(skc1) environment(skc1) || -> equal(skf6(skc1),equilibrium(skc1))** greater(skf5(skc1),equilibrium(skc1)).
% 0.72/0.88 3708[7:SSi:3704.1,3704.0,2.0,1.0,2.0,1.0] || -> equal(skf6(skc1),equilibrium(skc1))** greater(skf5(skc1),equilibrium(skc1)).
% 0.72/0.88 3709[7:MRR:3708.0,3708.1,2834.0,3132.0] || -> .
% 0.72/0.88 3710[7:Spt:3709.0,3568.1,3568.5] || equal(skf3(skf6(skc1)),skf5(skc1))** -> equal(skf3(skf6(skc1)),skf6(skc1)).
% 0.72/0.88 3712[1:MRR:3605.1,3605.2,2835.0,39.0] environment(u) || greater(skf3(skf6(skc1)),skf5(skc1))+ greater_or_equal(growth_rate(v,skf3(skf6(skc1))),zero)* subpopulations(first_movers,v,u,skf3(skf6(skc1)))* -> outcompetes(v,first_movers,skf3(skf6(skc1))) equal(skf3(skf6(skc1)),skf6(skc1)).
% 0.72/0.88 3735[8:Spt:3712.0,3712.2,3712.3,3712.4] environment(u) || greater_or_equal(growth_rate(v,skf3(skf6(skc1))),zero)*+ subpopulations(first_movers,v,u,skf3(skf6(skc1)))* -> outcompetes(v,first_movers,skf3(skf6(skc1))).
% 0.72/0.88 3738[8:Res:4.1,3735.1] environment(u) || greater(growth_rate(v,skf3(skf6(skc1))),zero) subpopulations(first_movers,v,u,skf3(skf6(skc1)))* -> outcompetes(v,first_movers,skf3(skf6(skc1))).
% 0.72/0.88 3759[8:Res:11.1,3738.2] environment(skc1) || in_environment(skc1,skf6(skc1)) greater(growth_rate(efficient_producers,skf3(skf6(skc1))),zero) -> outcompetes(efficient_producers,first_movers,skf3(skf6(skc1)))*.
% 0.72/0.88 3760[8:SSi:3759.0,2.0,1.0] || in_environment(skc1,skf6(skc1)) greater(growth_rate(efficient_producers,skf3(skf6(skc1))),zero) -> outcompetes(efficient_producers,first_movers,skf3(skf6(skc1)))*.
% 0.72/0.88 3761[8:MRR:3760.0,3760.2,39.0,3.0] || greater(growth_rate(efficient_producers,skf3(skf6(skc1))),zero)*l -> .
% 0.72/0.88 3763[8:NCh:15.2,15.0,3761.0,78.2] || greater(growth_rate(first_movers,skf3(skf6(skc1))),zero)*l greater(skf3(skf6(skc1)),skf5(skc1)) in_environment(skc1,skf6(skc1)) -> .
% 0.72/0.88 3772[8:MRR:3763.2,39.0] || greater(growth_rate(first_movers,skf3(skf6(skc1))),zero)*l greater(skf3(skf6(skc1)),skf5(skc1)) -> .
% 0.72/0.88 3786[0:Res:11.1,3582.4] || in_environment(skc1,u) greater(growth_rate(efficient_producers,skf3(u)),zero) greater(skf3(u),equilibrium(skc1)) in_environment(skc1,u) greater(skf3(u),skf5(skc1)) -> outcompetes(efficient_producers,first_movers,skf3(u))*.
% 0.72/0.88 3787[0:Obv:3786.0] || greater(growth_rate(efficient_producers,skf3(u)),zero) greater(skf3(u),equilibrium(skc1)) in_environment(skc1,u) greater(skf3(u),skf5(skc1)) -> outcompetes(efficient_producers,first_movers,skf3(u))*.
% 0.72/0.88 3788[0:MRR:3787.4,3.0] || greater(growth_rate(efficient_producers,skf3(u)),zero)*l greater(skf3(u),equilibrium(skc1)) in_environment(skc1,u) greater(skf3(u),skf5(skc1)) -> .
% 0.72/0.88 3793[8:Res:9.1,3772.0] SkP1(skf3(skf6(skc1))) || greater(skf3(skf6(skc1)),skf5(skc1))*l -> .
% 0.72/0.88 3798[8:SoR:3793.0,3358.2] || greater(skf3(skf6(skc1)),skf5(skc1)) greater(skf3(skf6(skc1)),equilibrium(skc1)) in_environment(skc1,skf6(skc1))* -> .
% 0.72/0.88 3799[8:MRR:3798.2,39.0] || greater(skf3(skf6(skc1)),skf5(skc1))*l greater(skf3(skf6(skc1)),equilibrium(skc1)) -> .
% 0.72/0.88 3800[8:NCh:15.2,15.0,3799.0,2836.1] || greater(skf6(skc1),skf5(skc1)) greater(skf3(skf6(skc1)),equilibrium(skc1))*l -> equal(skf3(skf6(skc1)),skf6(skc1)).
% 0.72/0.88 3819[8:NCh:15.2,15.0,3800.1,2836.1] || greater(skf6(skc1),skf5(skc1)) greater(skf6(skc1),equilibrium(skc1)) -> equal(skf3(skf6(skc1)),skf6(skc1))** equal(skf3(skf6(skc1)),skf6(skc1))**.
% 0.72/0.88 3822[8:Obv:3819.2] || greater(skf6(skc1),skf5(skc1)) greater(skf6(skc1),equilibrium(skc1)) -> equal(skf3(skf6(skc1)),skf6(skc1))**.
% 0.72/0.88 3823[8:MRR:3822.1,2835.0] || greater(skf6(skc1),skf5(skc1)) -> equal(skf3(skf6(skc1)),skf6(skc1))**.
% 0.72/0.88 3847[8:SpL:3823.1,3799.0] || greater(skf6(skc1),skf5(skc1)) greater(skf6(skc1),skf5(skc1)) greater(skf3(skf6(skc1)),equilibrium(skc1))*l -> .
% 0.72/0.88 3868[8:Obv:3847.0] || greater(skf6(skc1),skf5(skc1)) greater(skf3(skf6(skc1)),equilibrium(skc1))*l -> .
% 0.72/0.88 3869[8:Rew:3823.1,3868.1] || greater(skf6(skc1),skf5(skc1))*l greater(skf6(skc1),equilibrium(skc1)) -> .
% 0.72/0.88 3870[8:MRR:3869.1,2835.0] || greater(skf6(skc1),skf5(skc1))*l -> .
% 0.72/0.88 3871[8:MRR:3254.1,3870.0] || -> greater(skf5(skc1),skf6(skc1))*r.
% 0.72/0.88 3872[8:OCh:15.1,15.0,3871.0,52.3] stable(skc1) environment(skc1) || -> equal(skf6(skc1),equilibrium(skc1))** greater(skf5(skc1),equilibrium(skc1)).
% 0.72/0.88 3876[8:SSi:3872.1,3872.0,2.0,1.0,2.0,1.0] || -> equal(skf6(skc1),equilibrium(skc1))** greater(skf5(skc1),equilibrium(skc1)).
% 0.72/0.88 3877[8:MRR:3876.0,3876.1,2834.0,3132.0] || -> .
% 0.72/0.88 3878[8:Spt:3877.0,3712.1,3712.5] || greater(skf3(skf6(skc1)),skf5(skc1))*l -> equal(skf3(skf6(skc1)),skf6(skc1)).
% 0.72/0.88 3880[8:NCh:15.2,15.0,3878.0,2836.1] || greater(skf6(skc1),skf5(skc1)) -> equal(skf3(skf6(skc1)),skf6(skc1))** equal(skf3(skf6(skc1)),skf6(skc1))**.
% 0.72/0.88 3883[8:Obv:3880.1] || greater(skf6(skc1),skf5(skc1)) -> equal(skf3(skf6(skc1)),skf6(skc1))**.
% 0.72/0.88 3890[8:SpR:3883.1,3358.2] || greater(skf6(skc1),skf5(skc1)) in_environment(skc1,skf6(skc1))* greater(skf3(skf6(skc1)),equilibrium(skc1)) -> SkP1(skf6(skc1)).
% 0.72/0.88 3898[8:SpL:3883.1,77.1] || greater(skf6(skc1),skf5(skc1)) in_environment(skc1,skf6(skc1)) greater_or_equal(skf6(skc1),skf5(skc1)) -> greater(growth_rate(efficient_producers,skf3(skf6(skc1))),growth_rate(first_movers,skf3(skf6(skc1))))*l.
% 0.72/0.88 3915[8:Rew:3883.1,3890.2] || greater(skf6(skc1),skf5(skc1)) in_environment(skc1,skf6(skc1))* greater(skf6(skc1),equilibrium(skc1)) -> SkP1(skf6(skc1)).
% 0.72/0.88 3916[8:MRR:3915.1,3915.2,39.0,2835.0] || greater(skf6(skc1),skf5(skc1)) -> SkP1(skf6(skc1))*.
% 0.72/0.88 3920[8:Rew:3883.1,3898.3] || greater(skf6(skc1),skf5(skc1)) in_environment(skc1,skf6(skc1)) greater_or_equal(skf6(skc1),skf5(skc1))* -> greater(growth_rate(efficient_producers,skf6(skc1)),growth_rate(first_movers,skf6(skc1))).
% 0.72/0.88 3921[8:MRR:3920.1,3920.2,39.0,4.1] || greater(skf6(skc1),skf5(skc1)) -> greater(growth_rate(efficient_producers,skf6(skc1)),growth_rate(first_movers,skf6(skc1)))*l.
% 0.72/0.88 3984[8:SpL:3883.1,3788.0] || greater(skf6(skc1),skf5(skc1)) greater(growth_rate(efficient_producers,skf6(skc1)),zero)*l greater(skf3(skf6(skc1)),equilibrium(skc1)) in_environment(skc1,skf6(skc1)) greater(skf3(skf6(skc1)),skf5(skc1)) -> .
% 0.72/0.88 3994[8:Rew:3883.1,3984.4,3883.1,3984.2] || greater(skf6(skc1),skf5(skc1)) greater(growth_rate(efficient_producers,skf6(skc1)),zero)*l greater(skf6(skc1),equilibrium(skc1)) in_environment(skc1,skf6(skc1)) greater(skf6(skc1),skf5(skc1)) -> .
% 0.72/0.88 3995[8:Obv:3994.0] || greater(growth_rate(efficient_producers,skf6(skc1)),zero)*l greater(skf6(skc1),equilibrium(skc1)) in_environment(skc1,skf6(skc1)) greater(skf6(skc1),skf5(skc1)) -> .
% 0.72/0.88 3996[8:MRR:3995.1,3995.2,2835.0,39.0] || greater(growth_rate(efficient_producers,skf6(skc1)),zero)*l greater(skf6(skc1),skf5(skc1)) -> .
% 0.72/0.88 4001[8:NCh:15.2,15.0,3921.1,3996.0] || greater(skf6(skc1),skf5(skc1)) greater(growth_rate(first_movers,skf6(skc1)),zero)*l greater(skf6(skc1),skf5(skc1)) -> .
% 0.72/0.88 4004[8:Obv:4001.0] || greater(growth_rate(first_movers,skf6(skc1)),zero)*l greater(skf6(skc1),skf5(skc1)) -> .
% 0.72/0.88 4008[8:Res:9.1,4004.0] SkP1(skf6(skc1)) || greater(skf6(skc1),skf5(skc1))*l -> .
% 0.72/0.88 4011[8:MRR:4008.0,3916.1] || greater(skf6(skc1),skf5(skc1))*l -> .
% 0.72/0.88 4012[8:MRR:3254.1,4011.0] || -> greater(skf5(skc1),skf6(skc1))*r.
% 0.72/0.88 4014[8:OCh:15.1,15.0,4012.0,52.3] stable(skc1) environment(skc1) || -> equal(skf6(skc1),equilibrium(skc1))** greater(skf5(skc1),equilibrium(skc1)).
% 0.72/0.88 4018[8:SSi:4014.1,4014.0,2.0,1.0,2.0,1.0] || -> equal(skf6(skc1),equilibrium(skc1))** greater(skf5(skc1),equilibrium(skc1)).
% 0.72/0.88 4019[8:MRR:4018.0,4018.1,2834.0,3132.0] || -> .
% 0.72/0.88 4020[6:Spt:4019.0,3332.2,3347.0] || greater(zero,zero)* -> .
% 0.72/0.88 4021[6:Spt:4019.0,3332.0,3332.1,3332.3] || equal(skf3(skf6(skc1)),equilibrium(skc1))** greater(skf6(skc1),skf5(skc1)) -> equal(skf3(skf6(skc1)),skf6(skc1)).
% 0.72/0.88 4029[6:MRR:3475.0,3475.4,1794.3,4020.0] || greater(skf3(u),equilibrium(skc1)) in_environment(skc1,u)* greater(skf3(u),skf5(skc1)) -> .
% 0.72/0.88 4063[0:SoR:434.0,1771.2] || greater(skf3(u),skf5(skc1)) in_environment(skc1,u) in_environment(skc1,u) greater(skf3(u),equilibrium(skc1)) -> SkP1(skf3(u))*.
% 0.72/0.88 4069[0:Obv:4063.1] || greater(skf3(u),skf5(skc1)) in_environment(skc1,u) greater(skf3(u),equilibrium(skc1)) -> SkP1(skf3(u))*.
% 0.72/0.88 4091[6:Res:39.0,4029.1] || greater(skf3(skf6(skc1)),equilibrium(skc1)) greater(skf3(skf6(skc1)),skf5(skc1))*l -> .
% 0.72/0.88 4096[6:NCh:15.2,15.0,4091.1,2836.1] || greater(skf3(skf6(skc1)),equilibrium(skc1))*l greater(skf6(skc1),skf5(skc1)) -> equal(skf3(skf6(skc1)),skf6(skc1)).
% 0.72/0.88 4098[6:NCh:15.2,15.0,4096.0,2836.1] || greater(skf6(skc1),equilibrium(skc1)) greater(skf6(skc1),skf5(skc1)) -> equal(skf3(skf6(skc1)),skf6(skc1))** equal(skf3(skf6(skc1)),skf6(skc1))**.
% 0.72/0.88 4101[6:Obv:4098.2] || greater(skf6(skc1),equilibrium(skc1)) greater(skf6(skc1),skf5(skc1)) -> equal(skf3(skf6(skc1)),skf6(skc1))**.
% 0.72/0.88 4102[6:MRR:4101.0,2835.0] || greater(skf6(skc1),skf5(skc1)) -> equal(skf3(skf6(skc1)),skf6(skc1))**.
% 0.72/0.88 4115[6:SpL:4102.1,4091.1] || greater(skf6(skc1),skf5(skc1)) greater(skf3(skf6(skc1)),equilibrium(skc1))*l greater(skf6(skc1),skf5(skc1)) -> .
% 0.72/0.88 4123[6:Obv:4115.0] || greater(skf3(skf6(skc1)),equilibrium(skc1))*l greater(skf6(skc1),skf5(skc1)) -> .
% 0.72/0.88 4124[6:Rew:4102.1,4123.0] || greater(skf6(skc1),equilibrium(skc1)) greater(skf6(skc1),skf5(skc1))*l -> .
% 0.72/0.88 4125[6:MRR:4124.0,2835.0] || greater(skf6(skc1),skf5(skc1))*l -> .
% 0.72/0.88 4126[6:MRR:3254.1,4125.0] || -> greater(skf5(skc1),skf6(skc1))*r.
% 0.72/0.88 4127[6:OCh:15.1,15.0,4126.0,52.3] stable(skc1) environment(skc1) || -> equal(skf6(skc1),equilibrium(skc1))** greater(skf5(skc1),equilibrium(skc1)).
% 0.72/0.88 4131[6:SSi:4127.1,4127.0,2.0,1.0,2.0,1.0] || -> equal(skf6(skc1),equilibrium(skc1))** greater(skf5(skc1),equilibrium(skc1)).
% 0.72/0.88 4132[6:MRR:4131.0,4131.1,2834.0,3132.0] || -> .
% 0.72/0.88 4133[2:Spt:4132.0,66.0,2850.0] || equal(skf3(skf5(skc1)),skf5(skc1))** -> .
% 0.72/0.88 4134[2:Spt:4132.0,66.1] || -> greater(skf3(skf5(skc1)),skf5(skc1))*l.
% 0.72/0.88 4137[0:MRR:3475.0,4069.3] || greater(skf3(u),equilibrium(skc1)) in_environment(skc1,u)* greater(skf3(u),skf5(skc1)) -> greater(zero,zero).
% 0.72/0.88 4158[3:Spt:1840.1] || -> greater(zero,zero)*.
% 0.72/0.88 4167[3:MRR:1845.0,4158.0] || in_environment(skc1,u) greater(skf3(u),equilibrium(skc1)) -> SkP1(skf3(u))*.
% 0.72/0.88 4196[3:SoR:84.0,4167.2] || greater(skf3(skf5(skc1)),equilibrium(skc1)) in_environment(skc1,skf5(skc1)) -> greater(zero,growth_rate(first_movers,skf3(skf5(skc1))))*r.
% 0.72/0.88 4197[3:MRR:4196.1,38.0] || greater(skf3(skf5(skc1)),equilibrium(skc1)) -> greater(zero,growth_rate(first_movers,skf3(skf5(skc1))))*r.
% 0.72/0.88 4234[3:Res:4197.1,23.1] environment(u) || greater(skf3(skf5(skc1)),equilibrium(skc1))+ greater_or_equal(growth_rate(v,skf3(skf5(skc1))),zero)* subpopulations(first_movers,v,u,skf3(skf5(skc1)))* -> outcompetes(v,first_movers,skf3(skf5(skc1))).
% 0.72/0.88 4235[3:Res:4197.1,28.0] || greater(skf3(skf5(skc1)),equilibrium(skc1)) greater_or_equal(growth_rate(u,skf3(skf5(skc1))),zero)* subpopulations(first_movers,u,skc1,skf3(skf5(skc1))) -> outcompetes(u,first_movers,skf3(skf5(skc1))).
% 0.72/0.88 4254[4:Spt:2838.1] || -> equal(skf6(skc1),skf5(skc1))**.
% 0.72/0.88 4258[4:Rew:4254.0,2835.0] || -> greater(skf5(skc1),equilibrium(skc1))*l.
% 0.72/0.88 4265[4:Rew:4254.0,3712.1] environment(u) || greater(skf3(skf5(skc1)),skf5(skc1)) greater_or_equal(growth_rate(v,skf3(skf6(skc1))),zero)* subpopulations(first_movers,v,u,skf3(skf6(skc1)))* -> outcompetes(v,first_movers,skf3(skf6(skc1))) equal(skf3(skf6(skc1)),skf6(skc1)).
% 0.72/0.88 4270[4:Rew:4254.0,4265.5,4254.0,4265.4,4254.0,4265.3,4254.0,4265.2] environment(u) || greater(skf3(skf5(skc1)),skf5(skc1)) greater_or_equal(growth_rate(v,skf3(skf5(skc1))),zero)* subpopulations(first_movers,v,u,skf3(skf5(skc1)))* -> outcompetes(v,first_movers,skf3(skf5(skc1))) equal(skf3(skf5(skc1)),skf5(skc1)).
% 0.72/0.88 4271[4:MRR:4270.1,4270.5,4134.0,4133.0] environment(u) || greater_or_equal(growth_rate(v,skf3(skf5(skc1))),zero)*+ subpopulations(first_movers,v,u,skf3(skf5(skc1)))* -> outcompetes(v,first_movers,skf3(skf5(skc1))).
% 0.72/0.88 4290[4:Res:4.1,4271.1] environment(u) || greater(growth_rate(v,skf3(skf5(skc1))),zero) subpopulations(first_movers,v,u,skf3(skf5(skc1)))* -> outcompetes(v,first_movers,skf3(skf5(skc1))).
% 0.72/0.88 4305[4:Res:11.1,4290.2] environment(skc1) || in_environment(skc1,skf5(skc1)) greater(growth_rate(efficient_producers,skf3(skf5(skc1))),zero) -> outcompetes(efficient_producers,first_movers,skf3(skf5(skc1)))*.
% 0.72/0.88 4306[4:SSi:4305.0,2.0,1.0] || in_environment(skc1,skf5(skc1)) greater(growth_rate(efficient_producers,skf3(skf5(skc1))),zero) -> outcompetes(efficient_producers,first_movers,skf3(skf5(skc1)))*.
% 0.72/0.88 4307[4:MRR:4306.0,4306.2,38.0,3.0] || greater(growth_rate(efficient_producers,skf3(skf5(skc1))),zero)*l -> .
% 0.72/0.88 4313[4:NCh:15.2,15.0,4307.0,82.0] || greater(growth_rate(first_movers,skf3(skf5(skc1))),zero)*l -> .
% 0.72/0.88 4322[4:Res:9.1,4313.0] SkP1(skf3(skf5(skc1))) || -> .
% 0.72/0.88 4327[4:SoR:4322.0,4167.2] || greater(skf3(skf5(skc1)),equilibrium(skc1)) in_environment(skc1,skf5(skc1))* -> .
% 0.72/0.88 4328[4:MRR:4327.1,38.0] || greater(skf3(skf5(skc1)),equilibrium(skc1))*l -> .
% 0.72/0.88 4329[4:NCh:15.2,15.0,4328.0,4134.0] || greater(skf5(skc1),equilibrium(skc1))*l -> .
% 0.72/0.88 4331[4:MRR:4329.0,4258.0] || -> .
% 0.72/0.88 4332[4:Spt:4331.0,2838.1,4254.0] || equal(skf6(skc1),skf5(skc1))** -> .
% 0.72/0.88 4333[4:Spt:4331.0,2838.0,2838.2] || -> greater(skf5(skc1),skf6(skc1)) greater(skf6(skc1),skf5(skc1))*l.
% 0.72/0.88 4342[5:Spt:2836.0] || -> equal(skf3(skf6(skc1)),skf6(skc1))**.
% 0.72/0.88 4346[5:SpR:4342.0,11.1] || in_environment(skc1,skf6(skc1)) -> subpopulations(first_movers,efficient_producers,skc1,skf6(skc1))*.
% 0.72/0.88 4347[5:SpR:4342.0,78.2] || greater(skf3(skf6(skc1)),skf5(skc1)) in_environment(skc1,skf6(skc1)) -> greater(growth_rate(efficient_producers,skf6(skc1)),growth_rate(first_movers,skf6(skc1)))*l.
% 0.72/0.88 4349[5:SpR:4342.0,4167.2] || in_environment(skc1,skf6(skc1))* greater(skf3(skf6(skc1)),equilibrium(skc1)) -> SkP1(skf6(skc1)).
% 0.72/0.88 4352[5:SpL:4342.0,3.0] || outcompetes(efficient_producers,first_movers,skf6(skc1))* -> .
% 0.72/0.88 4359[5:MRR:4346.0,39.0] || -> subpopulations(first_movers,efficient_producers,skc1,skf6(skc1))*.
% 0.72/0.88 4361[5:Rew:4342.0,4349.1] || in_environment(skc1,skf6(skc1))* greater(skf6(skc1),equilibrium(skc1)) -> SkP1(skf6(skc1)).
% 0.72/0.88 4362[5:MRR:4361.0,4361.1,39.0,2835.0] || -> SkP1(skf6(skc1))*.
% 0.72/0.88 4370[5:Rew:4342.0,4347.0] || greater(skf6(skc1),skf5(skc1)) in_environment(skc1,skf6(skc1)) -> greater(growth_rate(efficient_producers,skf6(skc1)),growth_rate(first_movers,skf6(skc1)))*l.
% 0.72/0.88 4371[5:MRR:4370.1,39.0] || greater(skf6(skc1),skf5(skc1)) -> greater(growth_rate(efficient_producers,skf6(skc1)),growth_rate(first_movers,skf6(skc1)))*l.
% 0.72/0.88 4409[5:OCh:15.1,15.0,4371.1,10.1] SkP1(skf6(skc1)) || greater(skf6(skc1),skf5(skc1)) -> greater(zero,growth_rate(first_movers,skf6(skc1)))*r.
% 0.72/0.88 4410[5:SSi:4409.0,4362.0] || greater(skf6(skc1),skf5(skc1)) -> greater(zero,growth_rate(first_movers,skf6(skc1)))*r.
% 0.72/0.88 4412[5:Res:4410.1,23.1] environment(u) || greater(skf6(skc1),skf5(skc1))+ greater_or_equal(growth_rate(v,skf6(skc1)),zero)* subpopulations(first_movers,v,u,skf6(skc1))* -> outcompetes(v,first_movers,skf6(skc1)).
% 0.72/0.88 4429[5:Res:4333.1,4412.1] environment(u) || greater_or_equal(growth_rate(v,skf6(skc1)),zero)*+ subpopulations(first_movers,v,u,skf6(skc1))* -> greater(skf5(skc1),skf6(skc1)) outcompetes(v,first_movers,skf6(skc1)).
% 0.72/0.88 4466[6:Spt:4429.0,4429.1,4429.2,4429.4] environment(u) || greater_or_equal(growth_rate(v,skf6(skc1)),zero)*+ subpopulations(first_movers,v,u,skf6(skc1))* -> outcompetes(v,first_movers,skf6(skc1)).
% 0.72/0.88 4469[6:Res:4.1,4466.1] environment(u) || greater(growth_rate(v,skf6(skc1)),zero) subpopulations(first_movers,v,u,skf6(skc1))* -> outcompetes(v,first_movers,skf6(skc1)).
% 0.72/0.88 4476[6:Res:4359.0,4469.2] environment(skc1) || greater(growth_rate(efficient_producers,skf6(skc1)),zero) -> outcompetes(efficient_producers,first_movers,skf6(skc1))*.
% 0.72/0.88 4477[6:SSi:4476.0,2.0,1.0] || greater(growth_rate(efficient_producers,skf6(skc1)),zero) -> outcompetes(efficient_producers,first_movers,skf6(skc1))*.
% 0.72/0.88 4478[6:MRR:4477.1,4352.0] || greater(growth_rate(efficient_producers,skf6(skc1)),zero)*l -> .
% 0.72/0.88 4480[6:NCh:15.2,15.0,4478.0,4371.1] || greater(growth_rate(first_movers,skf6(skc1)),zero)*l greater(skf6(skc1),skf5(skc1)) -> .
% 0.72/0.88 4485[6:Res:9.1,4480.0] SkP1(skf6(skc1)) || greater(skf6(skc1),skf5(skc1))*l -> .
% 0.72/0.88 4488[6:SSi:4485.0,4362.0] || greater(skf6(skc1),skf5(skc1))*l -> .
% 0.72/0.88 4489[6:MRR:4333.1,4488.0] || -> greater(skf5(skc1),skf6(skc1))*r.
% 0.72/0.88 4492[6:OCh:15.1,15.0,4489.0,2835.0] || -> greater(skf5(skc1),equilibrium(skc1))*l.
% 0.72/0.88 4541[3:Res:4.1,4235.1] || greater(growth_rate(u,skf3(skf5(skc1))),zero) greater(skf3(skf5(skc1)),equilibrium(skc1)) subpopulations(first_movers,u,skc1,skf3(skf5(skc1)))* -> outcompetes(u,first_movers,skf3(skf5(skc1))).
% 0.72/0.88 4549[3:NCh:15.2,15.0,4234.1,4134.0] environment(u) || greater(skf5(skc1),equilibrium(skc1))+ greater_or_equal(growth_rate(v,skf3(skf5(skc1))),zero)* subpopulations(first_movers,v,u,skf3(skf5(skc1)))* -> outcompetes(v,first_movers,skf3(skf5(skc1))).
% 0.72/0.88 4551[6:MRR:4549.1,4492.0] environment(u) || greater_or_equal(growth_rate(v,skf3(skf5(skc1))),zero)*+ subpopulations(first_movers,v,u,skf3(skf5(skc1)))* -> outcompetes(v,first_movers,skf3(skf5(skc1))).
% 0.72/0.88 4554[6:Res:4.1,4551.1] environment(u) || greater(growth_rate(v,skf3(skf5(skc1))),zero) subpopulations(first_movers,v,u,skf3(skf5(skc1)))* -> outcompetes(v,first_movers,skf3(skf5(skc1))).
% 0.72/0.88 4586[6:Res:11.1,4554.2] environment(skc1) || in_environment(skc1,skf5(skc1)) greater(growth_rate(efficient_producers,skf3(skf5(skc1))),zero) -> outcompetes(efficient_producers,first_movers,skf3(skf5(skc1)))*.
% 0.72/0.88 4587[6:SSi:4586.0,2.0,1.0] || in_environment(skc1,skf5(skc1)) greater(growth_rate(efficient_producers,skf3(skf5(skc1))),zero) -> outcompetes(efficient_producers,first_movers,skf3(skf5(skc1)))*.
% 0.72/0.88 4588[6:MRR:4587.0,4587.2,38.0,3.0] || greater(growth_rate(efficient_producers,skf3(skf5(skc1))),zero)*l -> .
% 0.72/0.88 4594[6:NCh:15.2,15.0,4588.0,82.0] || greater(growth_rate(first_movers,skf3(skf5(skc1))),zero)*l -> .
% 0.72/0.88 4602[6:Res:9.1,4594.0] SkP1(skf3(skf5(skc1))) || -> .
% 0.72/0.88 4607[6:SoR:4602.0,4167.2] || greater(skf3(skf5(skc1)),equilibrium(skc1)) in_environment(skc1,skf5(skc1))* -> .
% 0.72/0.88 4608[6:MRR:4607.1,38.0] || greater(skf3(skf5(skc1)),equilibrium(skc1))*l -> .
% 0.72/0.88 4609[6:NCh:15.2,15.0,4608.0,4134.0] || greater(skf5(skc1),equilibrium(skc1))*l -> .
% 0.72/0.88 4611[6:MRR:4609.0,4492.0] || -> .
% 0.72/0.88 4612[6:Spt:4611.0,4429.3] || -> greater(skf5(skc1),skf6(skc1))*r.
% 0.72/0.88 4616[6:OCh:15.1,15.0,4612.0,2835.0] || -> greater(skf5(skc1),equilibrium(skc1))*l.
% 0.72/0.88 4618[6:MRR:4549.1,4616.0] environment(u) || greater_or_equal(growth_rate(v,skf3(skf5(skc1))),zero)*+ subpopulations(first_movers,v,u,skf3(skf5(skc1)))* -> outcompetes(v,first_movers,skf3(skf5(skc1))).
% 0.72/0.88 4657[6:Res:4.1,4618.1] environment(u) || greater(growth_rate(v,skf3(skf5(skc1))),zero) subpopulations(first_movers,v,u,skf3(skf5(skc1)))* -> outcompetes(v,first_movers,skf3(skf5(skc1))).
% 0.72/0.88 4695[6:Res:11.1,4657.2] environment(skc1) || in_environment(skc1,skf5(skc1)) greater(growth_rate(efficient_producers,skf3(skf5(skc1))),zero) -> outcompetes(efficient_producers,first_movers,skf3(skf5(skc1)))*.
% 0.72/0.88 4696[6:SSi:4695.0,2.0,1.0] || in_environment(skc1,skf5(skc1)) greater(growth_rate(efficient_producers,skf3(skf5(skc1))),zero) -> outcompetes(efficient_producers,first_movers,skf3(skf5(skc1)))*.
% 0.72/0.88 4697[6:MRR:4696.0,4696.2,38.0,3.0] || greater(growth_rate(efficient_producers,skf3(skf5(skc1))),zero)*l -> .
% 0.72/0.88 4703[6:NCh:15.2,15.0,4697.0,82.0] || greater(growth_rate(first_movers,skf3(skf5(skc1))),zero)*l -> .
% 0.72/0.88 4708[6:Res:9.1,4703.0] SkP1(skf3(skf5(skc1))) || -> .
% 0.72/0.88 4713[6:SoR:4708.0,4167.2] || greater(skf3(skf5(skc1)),equilibrium(skc1)) in_environment(skc1,skf5(skc1))* -> .
% 0.72/0.88 4714[6:MRR:4713.1,38.0] || greater(skf3(skf5(skc1)),equilibrium(skc1))*l -> .
% 0.72/0.88 4715[6:NCh:15.2,15.0,4714.0,4134.0] || greater(skf5(skc1),equilibrium(skc1))*l -> .
% 0.72/0.88 4717[6:MRR:4715.0,4616.0] || -> .
% 0.72/0.88 4718[5:Spt:4717.0,2836.0,4342.0] || equal(skf3(skf6(skc1)),skf6(skc1))** -> .
% 0.72/0.88 4719[5:Spt:4717.0,2836.1] || -> greater(skf3(skf6(skc1)),skf6(skc1))*l.
% 0.72/0.88 4722[5:MRR:3712.5,4718.0] environment(u) || greater(skf3(skf6(skc1)),skf5(skc1))+ greater_or_equal(growth_rate(v,skf3(skf6(skc1))),zero)* subpopulations(first_movers,v,u,skf3(skf6(skc1)))* -> outcompetes(v,first_movers,skf3(skf6(skc1))).
% 0.72/0.88 4785[5:NCh:15.2,15.0,4722.1,4719.0] environment(u) || greater(skf6(skc1),skf5(skc1))+ greater_or_equal(growth_rate(v,skf3(skf6(skc1))),zero)* subpopulations(first_movers,v,u,skf3(skf6(skc1)))* -> outcompetes(v,first_movers,skf3(skf6(skc1))).
% 0.72/0.88 4787[5:Res:4333.1,4785.1] environment(u) || greater_or_equal(growth_rate(v,skf3(skf6(skc1))),zero)*+ subpopulations(first_movers,v,u,skf3(skf6(skc1)))* -> greater(skf5(skc1),skf6(skc1)) outcompetes(v,first_movers,skf3(skf6(skc1))).
% 0.72/0.88 4799[6:Spt:4787.0,4787.1,4787.2,4787.4] environment(u) || greater_or_equal(growth_rate(v,skf3(skf6(skc1))),zero)*+ subpopulations(first_movers,v,u,skf3(skf6(skc1)))* -> outcompetes(v,first_movers,skf3(skf6(skc1))).
% 0.72/0.88 4802[6:Res:4.1,4799.1] environment(u) || greater(growth_rate(v,skf3(skf6(skc1))),zero) subpopulations(first_movers,v,u,skf3(skf6(skc1)))* -> outcompetes(v,first_movers,skf3(skf6(skc1))).
% 0.72/0.88 4813[6:Res:11.1,4802.2] environment(skc1) || in_environment(skc1,skf6(skc1)) greater(growth_rate(efficient_producers,skf3(skf6(skc1))),zero) -> outcompetes(efficient_producers,first_movers,skf3(skf6(skc1)))*.
% 0.72/0.88 4814[6:SSi:4813.0,2.0,1.0] || in_environment(skc1,skf6(skc1)) greater(growth_rate(efficient_producers,skf3(skf6(skc1))),zero) -> outcompetes(efficient_producers,first_movers,skf3(skf6(skc1)))*.
% 0.72/0.88 4815[6:MRR:4814.0,4814.2,39.0,3.0] || greater(growth_rate(efficient_producers,skf3(skf6(skc1))),zero)*l -> .
% 0.72/0.88 4816[3:Res:11.1,4541.2] || in_environment(skc1,skf5(skc1)) greater(growth_rate(efficient_producers,skf3(skf5(skc1))),zero) greater(skf3(skf5(skc1)),equilibrium(skc1)) -> outcompetes(efficient_producers,first_movers,skf3(skf5(skc1)))*.
% 0.72/0.88 4817[3:MRR:4816.0,4816.3,38.0,3.0] || greater(growth_rate(efficient_producers,skf3(skf5(skc1))),zero)*l greater(skf3(skf5(skc1)),equilibrium(skc1)) -> .
% 0.72/0.88 4819[6:NCh:15.2,15.0,4815.0,78.2] || greater(growth_rate(first_movers,skf3(skf6(skc1))),zero)*l greater(skf3(skf6(skc1)),skf5(skc1)) in_environment(skc1,skf6(skc1)) -> .
% 0.72/0.88 4824[6:MRR:4819.2,39.0] || greater(growth_rate(first_movers,skf3(skf6(skc1))),zero)*l greater(skf3(skf6(skc1)),skf5(skc1)) -> .
% 0.72/0.88 4832[3:NCh:15.2,15.0,4817.0,82.0] || greater(growth_rate(first_movers,skf3(skf5(skc1))),zero)*l greater(skf3(skf5(skc1)),equilibrium(skc1)) -> .
% 0.72/0.88 4839[6:Res:9.1,4824.0] SkP1(skf3(skf6(skc1))) || greater(skf3(skf6(skc1)),skf5(skc1))*l -> .
% 0.72/0.88 4844[6:SoR:4839.0,4167.2] || greater(skf3(skf6(skc1)),skf5(skc1)) greater(skf3(skf6(skc1)),equilibrium(skc1)) in_environment(skc1,skf6(skc1))* -> .
% 0.72/0.88 4845[6:MRR:4844.2,39.0] || greater(skf3(skf6(skc1)),skf5(skc1))*l greater(skf3(skf6(skc1)),equilibrium(skc1)) -> .
% 0.72/0.88 4846[6:NCh:15.2,15.0,4845.0,4719.0] || greater(skf6(skc1),skf5(skc1)) greater(skf3(skf6(skc1)),equilibrium(skc1))*l -> .
% 0.72/0.88 4848[6:NCh:15.2,15.0,4846.1,4719.0] || greater(skf6(skc1),skf5(skc1))*l greater(skf6(skc1),equilibrium(skc1)) -> .
% 0.72/0.88 4850[6:MRR:4848.1,2835.0] || greater(skf6(skc1),skf5(skc1))*l -> .
% 0.72/0.88 4851[6:MRR:4333.1,4850.0] || -> greater(skf5(skc1),skf6(skc1))*r.
% 0.72/0.88 4853[6:OCh:15.1,15.0,4851.0,2835.0] || -> greater(skf5(skc1),equilibrium(skc1))*l.
% 0.72/0.88 4865[3:Res:9.1,4832.0] SkP1(skf3(skf5(skc1))) || greater(skf3(skf5(skc1)),equilibrium(skc1))*l -> .
% 0.72/0.88 4874[3:SoR:4865.0,4167.2] || greater(skf3(skf5(skc1)),equilibrium(skc1)) greater(skf3(skf5(skc1)),equilibrium(skc1)) in_environment(skc1,skf5(skc1))* -> .
% 0.72/0.88 4875[3:Obv:4874.0] || greater(skf3(skf5(skc1)),equilibrium(skc1)) in_environment(skc1,skf5(skc1))* -> .
% 0.72/0.88 4876[3:MRR:4875.1,38.0] || greater(skf3(skf5(skc1)),equilibrium(skc1))*l -> .
% 0.72/0.88 4877[3:NCh:15.2,15.0,4876.0,4134.0] || greater(skf5(skc1),equilibrium(skc1))*l -> .
% 0.72/0.88 4879[6:MRR:4877.0,4853.0] || -> .
% 0.72/0.88 4880[6:Spt:4879.0,4787.3] || -> greater(skf5(skc1),skf6(skc1))*r.
% 0.72/0.88 4881[6:OCh:15.1,15.0,4880.0,52.3] stable(skc1) environment(skc1) || -> equal(skf6(skc1),equilibrium(skc1))** greater(skf5(skc1),equilibrium(skc1)).
% 0.72/0.88 4885[6:SSi:4881.1,4881.0,2.0,1.0,2.0,1.0] || -> equal(skf6(skc1),equilibrium(skc1))** greater(skf5(skc1),equilibrium(skc1)).
% 0.72/0.91 4886[6:MRR:4885.0,2834.0] || -> greater(skf5(skc1),equilibrium(skc1))*l.
% 0.72/0.91 4887[6:MRR:4886.0,4877.0] || -> .
% 0.72/0.91 4888[3:Spt:4887.0,1840.1,4158.0] || greater(zero,zero)* -> .
% 0.72/0.91 4889[3:Spt:4887.0,1840.0,1840.2] || greater(skf3(skf5(skc1)),equilibrium(skc1)) -> SkP1(skf3(skf5(skc1)))*.
% 0.72/0.91 4893[3:MRR:4137.3,4888.0] || greater(skf3(u),equilibrium(skc1)) in_environment(skc1,u)* greater(skf3(u),skf5(skc1)) -> .
% 0.72/0.91 4898[3:SoR:84.0,4889.1] || greater(skf3(skf5(skc1)),equilibrium(skc1)) -> greater(zero,growth_rate(first_movers,skf3(skf5(skc1))))*r.
% 0.72/0.91 4903[4:Spt:2836.0] || -> equal(skf3(skf6(skc1)),skf6(skc1))**.
% 0.72/0.91 4908[4:SpR:4903.0,78.2] || greater(skf3(skf6(skc1)),skf5(skc1)) in_environment(skc1,skf6(skc1)) -> greater(growth_rate(efficient_producers,skf6(skc1)),growth_rate(first_movers,skf6(skc1)))*l.
% 0.72/0.91 4921[4:Rew:4903.0,4908.0] || greater(skf6(skc1),skf5(skc1)) in_environment(skc1,skf6(skc1)) -> greater(growth_rate(efficient_producers,skf6(skc1)),growth_rate(first_movers,skf6(skc1)))*l.
% 0.72/0.91 4922[4:MRR:4921.1,39.0] || greater(skf6(skc1),skf5(skc1)) -> greater(growth_rate(efficient_producers,skf6(skc1)),growth_rate(first_movers,skf6(skc1)))*l.
% 0.72/0.91 4923[4:SpL:4903.0,87.1] || in_environment(skc1,skf6(skc1)) greater_or_equal(skf6(skc1),equilibrium(skc1)) -> SkP0(skf3(skf6(skc1))) SkP1(skf3(skf6(skc1))) greater(growth_rate(efficient_producers,skf3(skf6(skc1))),zero)*l.
% 0.72/0.91 4928[4:Rew:4903.0,4923.4,4903.0,4923.3,4903.0,4923.2] || in_environment(skc1,skf6(skc1)) greater_or_equal(skf6(skc1),equilibrium(skc1))* -> SkP0(skf6(skc1)) SkP1(skf6(skc1)) greater(growth_rate(efficient_producers,skf6(skc1)),zero).
% 0.72/0.91 4929[4:MRR:4928.0,4928.1,39.0,40.0] || -> SkP0(skf6(skc1)) SkP1(skf6(skc1)) greater(growth_rate(efficient_producers,skf6(skc1)),zero)*l.
% 0.72/0.91 4971[5:Spt:2838.1] || -> equal(skf6(skc1),skf5(skc1))**.
% 0.72/0.91 4977[5:Rew:4971.0,4903.0] || -> equal(skf3(skf5(skc1)),skf5(skc1))**.
% 0.72/0.91 4990[5:MRR:4977.0,4133.0] || -> .
% 0.72/0.91 5003[5:Spt:4990.0,2838.1,4971.0] || equal(skf6(skc1),skf5(skc1))** -> .
% 0.72/0.91 5004[5:Spt:4990.0,2838.0,2838.2] || -> greater(skf5(skc1),skf6(skc1)) greater(skf6(skc1),skf5(skc1))*l.
% 0.72/0.91 5046[6:Spt:4929.0] || -> SkP0(skf6(skc1))*.
% 0.72/0.91 5059[4:SpR:4903.0,1771.2] || greater(skf3(skf6(skc1)),equilibrium(skc1)) in_environment(skc1,skf6(skc1)) -> SkP0(skf6(skc1)) SkP1(skf3(skf6(skc1)))*.
% 0.72/0.91 5063[4:SpR:8.1,4922.1] SkP0(skf6(skc1)) || greater(skf6(skc1),skf5(skc1)) -> greater(zero,growth_rate(first_movers,skf6(skc1)))*r.
% 0.72/0.91 5064[4:OCh:15.1,15.0,4922.1,10.1] SkP1(skf6(skc1)) || greater(skf6(skc1),skf5(skc1)) -> greater(zero,growth_rate(first_movers,skf6(skc1)))*r.
% 0.72/0.91 5065[4:Rew:7.1,5063.2] SkP0(skf6(skc1)) || greater(skf6(skc1),skf5(skc1))*l -> greater(zero,zero).
% 0.72/0.91 5066[6:SSi:5065.0,5046.0] || greater(skf6(skc1),skf5(skc1))*l -> greater(zero,zero).
% 0.72/0.91 5067[6:MRR:5066.1,4888.0] || greater(skf6(skc1),skf5(skc1))*l -> .
% 0.72/0.91 5068[6:MRR:5004.1,5067.0] || -> greater(skf5(skc1),skf6(skc1))*r.
% 0.72/0.91 5070[6:OCh:15.1,15.0,5068.0,2835.0] || -> greater(skf5(skc1),equilibrium(skc1))*l.
% 0.72/0.91 5084[3:OCh:15.1,15.0,4898.1,9.1] SkP1(skf3(skf5(skc1))) || greater(skf3(skf5(skc1)),equilibrium(skc1))*l -> greater(zero,zero).
% 0.72/0.91 5089[3:MRR:5084.0,5084.2,4889.1,4888.0] || greater(skf3(skf5(skc1)),equilibrium(skc1))*l -> .
% 0.72/0.91 5092[3:NCh:15.2,15.0,5089.0,4134.0] || greater(skf5(skc1),equilibrium(skc1))*l -> .
% 0.72/0.91 5094[6:MRR:5092.0,5070.0] || -> .
% 0.72/0.91 5095[6:Spt:5094.0,4929.0,5046.0] || SkP0(skf6(skc1))* -> .
% 0.72/0.91 5096[6:Spt:5094.0,4929.1,4929.2] || -> SkP1(skf6(skc1)) greater(growth_rate(efficient_producers,skf6(skc1)),zero)*l.
% 0.72/0.91 5099[4:Rew:4903.0,5059.3,4903.0,5059.0] || greater(skf6(skc1),equilibrium(skc1)) in_environment(skc1,skf6(skc1))* -> SkP0(skf6(skc1)) SkP1(skf6(skc1)).
% 0.72/0.91 5100[4:MRR:5099.0,5099.1,2835.0,39.0] || -> SkP0(skf6(skc1))* SkP1(skf6(skc1)).
% 0.72/0.91 5101[6:MRR:5100.0,5095.0] || -> SkP1(skf6(skc1))*.
% 0.72/0.91 5102[6:MRR:5064.0,5101.0] || greater(skf6(skc1),skf5(skc1)) -> greater(zero,growth_rate(first_movers,skf6(skc1)))*r.
% 0.72/0.91 5103[7:Spt:5004.0] || -> greater(skf5(skc1),skf6(skc1))*r.
% 0.72/0.91 5104[7:OCh:15.1,15.0,5103.0,52.3] stable(skc1) environment(skc1) || -> equal(skf6(skc1),equilibrium(skc1))** greater(skf5(skc1),equilibrium(skc1)).
% 0.72/0.91 5108[7:SSi:5104.1,5104.0,2.0,1.0,2.0,1.0] || -> equal(skf6(skc1),equilibrium(skc1))** greater(skf5(skc1),equilibrium(skc1)).
% 0.72/0.91 5109[7:MRR:5108.0,2834.0] || -> greater(skf5(skc1),equilibrium(skc1))*l.
% 0.72/0.91 5110[7:MRR:5109.0,5092.0] || -> .
% 0.72/0.91 5111[7:Spt:5110.0,5004.0,5103.0] || greater(skf5(skc1),skf6(skc1))*r -> .
% 0.72/0.91 5112[7:Spt:5110.0,5004.1] || -> greater(skf6(skc1),skf5(skc1))*l.
% 0.72/0.91 5115[7:MRR:5102.0,5112.0] || -> greater(zero,growth_rate(first_movers,skf6(skc1)))*r.
% 0.72/0.91 5121[7:OCh:15.1,15.0,5115.0,9.1] SkP1(skf6(skc1)) || -> greater(zero,zero)*.
% 0.72/0.91 5126[7:SSi:5121.0,5101.0] || -> greater(zero,zero)*.
% 0.72/0.91 5127[7:MRR:5126.0,4888.0] || -> .
% 0.72/0.91 5130[4:Spt:5127.0,2836.0,4903.0] || equal(skf3(skf6(skc1)),skf6(skc1))** -> .
% 0.72/0.91 5131[4:Spt:5127.0,2836.1] || -> greater(skf3(skf6(skc1)),skf6(skc1))*l.
% 0.72/0.91 5141[5:Spt:2838.1] || -> equal(skf6(skc1),skf5(skc1))**.
% 0.72/0.91 5145[5:Rew:5141.0,2835.0] || -> greater(skf5(skc1),equilibrium(skc1))*l.
% 0.72/0.91 5156[5:MRR:5145.0,5092.0] || -> .
% 0.72/0.91 5160[5:Spt:5156.0,2838.1,5141.0] || equal(skf6(skc1),skf5(skc1))** -> .
% 0.72/0.91 5161[5:Spt:5156.0,2838.0,2838.2] || -> greater(skf5(skc1),skf6(skc1)) greater(skf6(skc1),skf5(skc1))*l.
% 0.72/0.91 5181[3:Res:39.0,4893.1] || greater(skf3(skf6(skc1)),equilibrium(skc1)) greater(skf3(skf6(skc1)),skf5(skc1))*l -> .
% 0.72/0.91 5184[4:NCh:15.2,15.0,5181.1,5131.0] || greater(skf3(skf6(skc1)),equilibrium(skc1))*l greater(skf6(skc1),skf5(skc1)) -> .
% 0.72/0.91 5186[4:NCh:15.2,15.0,5184.0,5131.0] || greater(skf6(skc1),equilibrium(skc1)) greater(skf6(skc1),skf5(skc1))*l -> .
% 0.72/0.91 5188[4:MRR:5186.0,2835.0] || greater(skf6(skc1),skf5(skc1))*l -> .
% 0.72/0.91 5189[5:MRR:5161.1,5188.0] || -> greater(skf5(skc1),skf6(skc1))*r.
% 0.72/0.91 5190[5:OCh:15.1,15.0,5189.0,52.3] stable(skc1) environment(skc1) || -> equal(skf6(skc1),equilibrium(skc1))** greater(skf5(skc1),equilibrium(skc1)).
% 0.72/0.91 5194[5:SSi:5190.1,5190.0,2.0,1.0,2.0,1.0] || -> equal(skf6(skc1),equilibrium(skc1))** greater(skf5(skc1),equilibrium(skc1)).
% 0.72/0.91 5195[5:MRR:5194.0,5194.1,2834.0,5092.0] || -> .
% 0.72/0.91 % SZS output end Refutation
% 0.72/0.91 Formulae used in the proof : prove_t4 a4 mp_greater_or_equal l6 l1 mp_greater_transitivity mp_times_in_environment d2
% 0.72/0.91
%------------------------------------------------------------------------------