Abstract
Overhunting is a leading contemporary driver of tropical forest wildlife loss. The absence or extremely low densities of large-bodied vertebrates disrupts plant-animal mutualisms and consequently degrades key ecosystem services. Understanding patterns of defaunation is therefore crucial given that most tropical forests worldwide are now “half-empty”. Here we investigate changes in vertebrate community composition and size structure along a gradient of marked anthropogenic hunting pressure in the Médio Juruá region of western Brazilian Amazonia. Using a novel camera trapping grid design deployed both in the understorey and the forest canopy, we estimated the aggregate biomass of several functional groups of terrestrial and arboreal species at 28 sites along the hunting gradient. Generalized linear models (GLMs) identified hunting pressure as the most important driver of aggregate biomass for game, terrestrial, and arboreal species, as well as nocturnal rodents, frugivores, and granivores. Local hunting pressure affected vertebrate community structure as shown by both GLM and ordination analyses. The size structure of vertebrate fauna changed in heavily hunted areas due to population declines in large-bodied species and apparent compensatory increases in nocturnal rodents. Our study shows markedly altered vertebrate community structure even in remote but heavily settled areas of continuous primary forest. Depletion of frugivore and granivore populations, and concomitant density-compensation by seed predators, likely affect forest regeneration in persistently overhunted tropical forests. These findings contribute to a better understanding of how cascading effects induced by historical defaunation operate, informing wildlife management policy in tropical peri-urban, rural and wilderness areas.
Highlights
Overhunting is the leading driver of contemporary defaunation inducing decisive declines in the abundance of large-bodied vertebrate populations in tropical forests worldwide (Peres and Palacios 2007; Fa and Brown 2009; Harrison et al 2016)
Terrestrial vertebrates were represented by 39 species, of which agoutis (Dasyprocta spp.) and spiny rats (Proechimys spp.) were the most abundant mammals detected, while small tinamous (Crypturellus spp.) and pale-winged trumpeters (Psophia leucoptera) were the most frequently detected birds
The game biomass contribution at the grid scale ranged from 47.8% in our least hunted site to only 6.2% in our most hunted site. This overall reduction in the biomass of large-bodied species is the first stage of a wider defaunation process described for other depleted tropical forest landscapes both across Amazonia (Peres and Palacios 2007) and elsewhere in the tropics (Benítez-López et al 2017), and reflects the patterns of local extinctions in low-fecundity large-bodied mammals throughout the Neotropics (Bogoni et al 2020)
Summary
Overhunting is the leading driver of contemporary defaunation inducing decisive declines in the abundance of large-bodied vertebrate populations in tropical forests worldwide (Peres and Palacios 2007; Fa and Brown 2009; Harrison et al 2016). Bird and mammal abundance can decline by over 50% and 80%, respectively, in heavily hunted tropical forest areas (Benítez-López et al 2017). In this way, hunting-induced defaunation is a threat that obscures the integrity of both forest biotas and their fabric of ecological interactions (Redford 1992; Wilkie et al 2011). Overhunting alters the structure of Neotropical vertebrate communities promoting a directional decline in large-bodied mammal and bird populations (Peres 2000; Jerozolimski and Peres 2003). Small-bodied mammals such as rodents and small primate species can benefit from intensely hunted areas due to release from negative interactions (e.g. predation and resource competition), changes in habitat structure, or both (Peres and Dolman 2000; Galetti et al 2015a; Young et al 2015)
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