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. 2010 Nov 27;365(1558):3719-27.
doi: 10.1098/rstb.2010.0295.

Disturbance and change in biodiversity

Affiliations

Disturbance and change in biodiversity

Maria Dornelas. Philos Trans R Soc Lond B Biol Sci. .

Abstract

Understanding how disturbance affects biodiversity is important for both fundamental and applied reasons. Here, I investigate how disturbances with different ecological effects change biodiversity metrics. I define three main types of disturbance effects: D disturbance (shifts in mortality rate), B disturbance (shifts in reproductive rates) and K disturbance (shifts in carrying capacity). Numerous composite disturbances can be defined including any combination of these three types of ecological effects. The consequences of D, B and K disturbances, as well as of composite DBK disturbances are examined by comparing metrics before and after a disturbance, in disturbed and undisturbed communities. I use simulations of neutral communities and examine species richness, total abundance and species abundance distributions. The patterns of change in biodiversity metrics are consistent among different types of disturbance. K disturbance has the most severe effects, followed by D disturbance, and B disturbance has nearly negligible effects. Consequences of composite DBK disturbances are more complex than any of the three types of disturbance, with unimodal relationships along a disturbance gradient arising when D, B and K are negatively correlated. Importantly, regardless of disturbance type, community isolation enhances the negative consequences and hinders the positive effects of disturbances.

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Figures

Figure 1.
Figure 1.
Model dynamics: pseudo-code used for the simulations (R code can be obtained from the author). Baseline simulations were ran 10 000 time steps (with disturbance parameters D, B and K set to 1) after which communities were disturbed, with disturbance events lasting 1 time step.
Figure 2.
Figure 2.
Changes in total abundance and species richness across gradients of different types of disturbance: line shows the before disturbance values (solid line for m = 0.01 and dashed line for m = 0.5), and disturbance gradient goes from severe positive to severe negative from left to right on the x-axis; unfilled circles represent mean of 100 simulated communities with m = 0.01, and filled triangles m = 0.5; (a,c,e,g,i) report total abundance and (b,d,f,h,j) report species richness; (a,b) D disturbances, (c,d) B disturbances, (e,f) K disturbances, (g,h) DBKu disturbances, and (i,j) DBKr disturbances. Model parameters are J of 10 000, S of 150.
Figure 3.
Figure 3.
Changes in species abundance distributions caused by gradients of different types of disturbance: circles mark before disturbance values, and lines after disturbance. (a,b) D disturbance, (c,d) B disturbance, (e,f) K disturbance, (g,h) DBKu disturbance, and (i,j) DBKr disturbance. Model parameters are J of 10 000, S of 150 and m of 0.01 for (a,c,e,g,i) and 0.5 for (b,d,f,h,j).

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