[ T_{crush} = \frac{\ln(N_0 / N_{threshold})}{S - r_{max}} ]
For high ( P ), the equilibrium collapses abruptly. The critical ( P_{crit} ) is the “crush threshold.” For constant stress ( S > S_{crit} ):
The introduction of Nile perch ( Lates niloticus ) into Lake Victoria crushed native haplochromine cichlids, driving ~200 species extinct within decades. 3.2 Resource Monopolization & Competitive Crush A single species or functional group captures nearly all limiting resources, crushing competitors.
[ T_{crush} = \frac{\ln(N_0 / N_{threshold})}{S - r_{max}} ]
For high ( P ), the equilibrium collapses abruptly. The critical ( P_{crit} ) is the “crush threshold.” For constant stress ( S > S_{crit} ): crush e
The introduction of Nile perch ( Lates niloticus ) into Lake Victoria crushed native haplochromine cichlids, driving ~200 species extinct within decades. 3.2 Resource Monopolization & Competitive Crush A single species or functional group captures nearly all limiting resources, crushing competitors. [ T_{crush} = \frac{\ln(N_0 / N_{threshold})}{S - r_{max}}
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