scholarly journals Density-dependent adult recruitment in a low-density tropical tree

2018 ◽  
Vol 115 (44) ◽  
pp. 11268-11273 ◽  
Author(s):  
James R. Kellner ◽  
Stephen P. Hubbell
Keyword(s):  
Tree Species ◽  
Adult Population ◽  
Adult Density ◽  
Tree Recruitment ◽  
Density Dependent ◽  
Conspecific Density ◽  
Density Dependent Mortality ◽  
Conspecific Adult ◽  
Adult Tree ◽  
Dependent Mortality

The Janzen–Connell hypothesis is a well-known explanation for why tropical forests have large numbers of tree species. A fundamental prediction of the hypothesis is that the probability of adult recruitment is less in regions of high conspecific adult density, a pattern mediated by density-dependent mortality in juvenile life stages. Although there is strong evidence in many tree species that seeds, seedlings, and saplings suffer conspecific density-dependent mortality, no study has shown that adult tree recruitment is negatively density dependent. Density-dependent adult recruitment is necessary for the Janzen–Connell mechanism to regulate tree populations. Here, we report density-dependent adult recruitment in the population of Handroanthus guayacan, a wind-dispersed Neotropical canopy tree species. We use data from high-resolution remote sensing to track individual trees with proven capacity to flower in a lowland moist forest landscape in Panama and analyze these data in a Bayesian framework similar to capture–recapture analysis. We independently quantify probabilities of adult tree recruitment and detection and show that adult recruitment is negatively density dependent. The annualized probability of adult recruitment was 3.03% ⋅ year−1. Despite the detection of negative density dependence in adult recruitment, it was insufficient to stabilize the adult population of H. guayacan, which increased significantly in size over the decade of observation.

scholarly journals Wildlife disturbances as a source of conspecific negative density dependent mortality in tropical trees

2020 ◽  
Author(s):  
Matthew Luskin ◽  
Kalan Ickes ◽  
Stuart Davies ◽  
Daniel Johnson ◽  
Yao Tze Leong
Keyword(s):  
Tree Species ◽  
Habitat Preferences ◽  
Weighted Average ◽  
Wildlife Habitat ◽  
Species Evenness ◽  
Density Dependent ◽  
Density Dependent Mortality ◽  
Neighborhood Scale ◽  
The Impact ◽  
Dependent Mortality

Large vertebrates are rarely considered important drivers of conspecific negative density-dependent mortality (CNDD) in plants because they are generalist consumers. However, disturbances like trampling also cause plant mortality, and their impact on plant diversity depends on the spatial overlap between wildlife habitat preferences and plant species composition. We studied the impact of native wildlife on a hyperdiverse tree community in Malaysia where pigs (Sus scrofa) are abnormally abundant due to food subsidies in nearby farmland. Pigs construct birthing nests using hundreds of tree saplings, which accounted for at least 18% of tree sapling mortality at our site. We tagged 34,950 tree saplings in 25-ha plot during an initial census and assessed the likelihood they were later killed by pig nesting disturbances in subsequent years (N = 1,672 pig-induced deaths). At the stand scale, pigs nested in flat dry habitats, and at the local neighborhood scale, they nested within clumps of saplings, both of which are intuitive for safe and efficient building. At the stand scale, flat dry habitats contained higher sapling densities and higher proportions of common species, so pig nesting increased the weighted average species evenness across habitats. At the neighbourhood scale, pig-induced sapling mortality was associated with higher heterospecific and especially conspecific sapling densities. Tree species have clumped distributions due to dispersal limitation and habitat filtering, so pig disturbances in sapling clumps indirectly caused CNDD. As a result, Pielou species evenness in 400-m2 quadrats increased 105% more in areas with pig-induced deaths than areas without disturbances. Wildlife induced CNDD and this supported tree species evenness but they also drove a 62% decline in sapling densities, which is unsustainable. We suspect pig nesting is an important feature shaping tree composition throughout the region.

scholarly journals Wildlife disturbances as a source of conspecific negative density-dependent mortality in tropical trees

2021 ◽  
Vol 288 (1946) ◽  
pp. 20210001
Author(s):  
Matthew Scott Luskin ◽  
Daniel J. Johnson ◽  
Kalan Ickes ◽  
Tze Leong Yao ◽  
Stuart J. Davies
Keyword(s):  
Tree Species ◽  
Habitat Preferences ◽  
Weighted Average ◽  
Wildlife Habitat ◽  
Species Evenness ◽  
Density Dependent ◽  
Density Dependent Mortality ◽  
Neighbourhood Scale ◽  
The Impact ◽  
Dependent Mortality

Large vertebrates are rarely considered important drivers of conspecific negative density-dependent mortality (CNDD) in plants because they are generalist consumers. However, disturbances like trampling and nesting also cause plant mortality, and their impact on plant diversity depends on the spatial overlap between wildlife habitat preferences and plant species composition. We studied the impact of native wildlife on a hyperdiverse tree community in Malaysia. Pigs ( Sus scrofa ) are abnormally abundant at the site due to food subsidies in nearby farmland and they construct birthing nests using hundreds of tree saplings. We tagged 34 950 tree saplings in a 25 ha plot during an initial census and assessed the source mortality by recovering tree tags from pig nests ( n = 1672 pig-induced deaths). At the stand scale, pigs nested in flat dry habitats, and at the local neighbourhood scale, they nested within clumps of saplings, both of which are intuitive for safe and efficient nest building. At the stand scale, flat dry habitats contained higher sapling densities and higher proportions of common species, so pig nesting increased the weighted average species evenness across habitats. At the neighbourhood scale, pig-induced sapling mortality was associated with higher heterospecific and especially conspecific sapling densities. Tree species have clumped distributions due to dispersal limitation and habitat filtering, so pig disturbances in sapling clumps indirectly caused CNDD. As a result, Pielou species evenness in 400 m 2 quadrats increased 105% more in areas with pig-induced deaths than areas without disturbances. Wildlife induced CNDD and this supported tree species evenness, but they also drove a 62% decline in sapling densities from 1996 to 2010, which is unsustainable. We suspect pig nesting is an important feature shaping tree composition throughout the region.

An Experiment On Spacing-Out as a Defence Against Predation

Behaviour ◽  
1967 ◽  
Vol 28 (3-4) ◽  
pp. 307-320 ◽  
Author(s):  
D. Franck ◽  
M. Impekoven ◽  
N. Tinbergen
Keyword(s):  
Selection Pressure ◽  
Standard Sample ◽  
Direct Detection ◽  
Natural Populations ◽  
The Other ◽  
Detection Distance ◽  
Density Dependent ◽  
Density Dependent Mortality ◽  
Scattered Population ◽  
Dependent Mortality

AbstractThe paper is concerned with the tracing of a selection pressure which would account for the fact (believed to be sufficiently well established) that individuals of many well-camouflaged species live further away from other individuals of their species than the distance from which even bird predators are able to detect them. Artificially camouflaged hens' eggs were laid out in plots of different densities. Wild Carrion Crows were attracted to each plot by a standard "sample egg" which, while painted in the same way as the other eggs on the uppermost half, was laid out in a more conspicuous way. In spite of the fact that the Crows spent more time searching in the "scattered" than in the "crowded" plots, the crowded eggs suffered a much higher mortality. It is concluded that even for individuals of a well-camouflaged species it must be of advantage to live further away from others than the Direct Detection Distance of their predators. However, the experiments do not show that a crowded population as a whole suffers higher predation than a scattered population; experiments to test this and other aspects of the problem are in progress. It is argued that the absolute values of the density dependent mortality scores of the experiments cannot be applied to natural populations, because their density will in most cases be determined by other ultimate factors as well.

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