Browsing by Author "Rosin, Cooper"
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Item Open Access Assessing the effects of elephant foraging on the structure and diversity of an Afrotropical forest(Biotropica, 2020-05-01) Rosin, Cooper; Beals, Kendall K; Belovitch, Michael W; Harrison, Ruby E; Pendred, Megan; Sullivan, Megan K; Yao, Nicolas; Poulsen, John RAfrican forest elephants (Loxodonta cyclotis) are ecosystem engineers that browse and damage large quantities of vegetation during their foraging and movement. Though elephant trail networks and clearings are conspicuous features of many African forests, the consequences of elephant foraging for forest structure and diversity are poorly documented. In this study in northeastern Gabon, we compare stem size, stem density, proportional damage, species diversity, and species relative abundance of seedlings and saplings in the vicinity of seven tree species that produce elephant-preferred fruits (“elephant trees”) relative to control trees that do not. Across 34 survey trees, with a combined census area of 2.04 ha, we recorded data on 26,128 woody stems in three sizes classes. Compared with control trees, the area around elephant trees had the following: (a) a significantly greater proportion of damaged seedlings and a marginally greater proportion of damaged saplings (with 82% and 24% greater odds of damage, respectively); (b) no significant difference in stem density or species diversity; and (c) a significantly greater relative abundance of seedlings of elephant tree species. Increasing distance away from focal elephant trees was associated with significantly reduced sapling stem damage, significantly increased sapling stem density, and significantly increased sapling species diversity. Considered in sum, our results suggest that elephants can affect the structure and diversity of Afrotropical forests through their foraging activities, with some variation based on location and plant size class. Developing a more complete understanding of elephants’ ecological effects will require continued research, ideally with manipulative experiments. Abstract in French is available with online material.Item Open Access Assessing Vertebrate Abundance and the Effects of Anthropogenic Disturbance on Tropical Forest Dynamics(2012-04-27) Rosin, CooperThe Madre de Dios river basin in southeastern Peru is one of the largest and most diverse forest ecosystems on the planet. Though conservation zones with strict protection do exist in the basin, human population growth and development are having a considerable effect on forest dynamics. One major threat is the hunting-induced reduction or local extinction of large-bodied vertebrates. Vertebrate fauna contribute substantially to the maintenance of biodiversity and ecosystem processes – most notably through the dispersal of seeds by frugivores – and their loss may have disastrous consequences both to forest community composition and to the human populations which rely on ecosystem health and functioning. On the basis of 300km of standardized line-transect sampling, I documented the current densities of vertebrate frugivores across three forest sites under varying degrees of hunting pressure. I compared results across sites and interpreted them in terms of current pressures as well as site-specific trends in seedfall and tree recruitment. Increasing hunting pressure reduced large-bodied frugivores, corresponding with distinct shifts in vertebrate community composition and seedfall patterns. In response to these results, future efforts should promote strict protection of large-bodied vertebrate frugivores, with continued expansive multi-taxa forest monitoring across ontogenetic stages.Item Open Access Hunting-induced defaunation drives increased seed predation and decreased seedling establishment of commercially important tree species in an Afrotropical forest(Forest Ecology and Management, 2016-12-15) Rosin, Cooper; Poulsen, John R© 2016 Elsevier B.V. Human hunting is widespread in tropical forests and can substantially alter the plant-animal interactions that drive tree recruitment. Seed predation is a strong determinant of plant reproductive success, but it remains unclear how defaunation modifies this process. We examined the effects of hunting-induced defaunation on seed predation and seedling establishment, using replicated exclosure treatments at six sit es across a defaunation gradient in northeastern Gabon. We monitored 5580 seeds of eight commercially important tree species that varied in seed traits such as size and dispersal mode. Rodents caused the greatest seed mortality for all species, removing ∼60% of accessible seeds. In comparison, invertebrates and fungi together caused just 6% of seed mortality. With protection from rodents, more than twice as many seeds established as seedlings, demonstrating that vertebrate seed predation was a strong filter on recruitment. With increasing defaunation, the proportion of seeds removed by rodents increased significantly, and seedling establishment decreased significantly, for most species. In heavily defaunated sites, with the lowest abundances of large mammals, seed removal by rodents increased by 63% and seedling establishment decreased by 42% compared to sites with intact fauna. Diminished seedling establishment is likely to reduce the regeneration of many tree species – including some with commercial importance – in hunted forests, with detrimental economic consequences. In turn, declines in timber regeneration may increase the likelihood that selectively logged forests are converted to non-forest land uses with little conservation value. Appropriate management could preclude these outcomes, to the benefit of both wildlife and natural timber regeneration.Item Open Access Plant-Animal Interactions and Defaunation in Tropical Forests: How Animal Communities and Anthropogenic Disturbances Drive Patterns in Seed Predation, Seedling Damage, and the Regeneration of Tropical Forest Trees(2017) Rosin, CooperThe biotic forces that shape plant communities across ontogenetic stages drive patterns in survival, vegetation structure, and species diversity. In tropical forests, many of these forces are facilitated by interactions with animals, which can either promote or inhibit plant reproduction. Disruptions to these interactions – such as defaunation resulting from hunting and logging – can generate broad changes in tree recruitment, forest structure, and carbon storage, with demographic filtering at the seed and seedling stages responsible for many of the effects. Research to date has largely focused on a subset of prominent interactions (especially seed dispersal), while concurrent disruptions to other less-studied ecological processes may drive changes of opposite directionality for individual species or entire communities. With a limited understanding of seed predation, seedling establishment, and seedling physical damage and survival – particularly in Central African forests – it remains difficult to predict the outcomes of defaunation for tropical forest plant communities. In this dissertation, I use a combination of literature reviews, field-based experimental methods (including telemetric seed tags, seed and seedling exclosures, and artificial seedlings) and statistical analyses to assess 1) the role of plant-animal interactions and the influence of hunting on the regeneration of timber trees across tropical forests; 2) patterns of secondary dispersal and seed fate for two tree species in northeastern Gabon; 3) the role of seed traits and both seed density and distance from the parent tree in driving patterns of seed mortality and seedling establishment for ten tree species in northeastern Gabon; 4) the impacts of hunting on seed predation and seedling establishment for eight commercially important tree species across a defaunation gradient in northeastern Gabon; and 5) the role of physical damage by vertebrate trampling, rooting, and digging to artificial seedlings in intact and hunted and/or logged forests in Peru, Gabon, and Malaysian Borneo. I conclude that 1) hunting is likely to disrupt plant-animal interactions and tropical forest timber regeneration, but that these effects can be ameliorated given appropriate management; 2) seed fate is dependent on seed size and the identity of the seed predator, with evidence of scatterhoarding and secondary dispersal in northeastern Gabon; 3) seed traits, not density or distance from the parent tree, drive patterns in seed mortality and seedling establishment in northeastern Gabon, with vertebrate seed predation a stronger force than other mortality factors; 4) hunting-induced defaunation drives increased rodent seed predation and decreased seedling establishment of commercially-important tree species; and 5) vertebrate physical damage to seedlings is a consistent force in forests across the tropics, and hunting significantly reduces its strength. This dissertation highlights the important roles of wildlife in tropical forest ecological processes as well as the degree to which these interactions can be disrupted through hunting-induced defaunation, and emphasizes the value of appropriate management and continued comparative research across tropical forest regions.
Item Open Access Poaching empties critical Central African wilderness of forest elephants.(Curr Biol, 2017-02-20) Poulsen, John R; Koerner, Sally E; Moore, Sarah; Medjibe, Vincent P; Blake, Stephen; Clark, Connie J; Akou, Mark Ella; Fay, Michael; Meier, Amelia; Okouyi, Joseph; Rosin, Cooper; White, Lee JTElephant populations are in peril everywhere, but forest elephants in Central Africa have sustained alarming losses in the last decade [1]. Large, remote protected areas are thought to best safeguard forest elephants by supporting large populations buffered from habitat fragmentation, edge effects and human pressures. One such area, the Minkébé National Park (MNP), Gabon, was created chiefly for its reputation of harboring a large elephant population. MNP held the highest densities of elephants in Central Africa at the turn of the century, and was considered a critical sanctuary for forest elephants because of its relatively large size and isolation. We assessed population change in the park and its surroundings between 2004 and 2014. Using two independent modeling approaches, we estimated a 78-81% decline in elephant numbers over ten years - a loss of more than 25,000 elephants. While poaching occurs from within Gabon, cross-border poaching largely drove the precipitous drop in elephant numbers. With nearly 50% of forest elephants in Central Africa thought to reside in Gabon [1], their loss from the park is a considerable setback for the preservation of the species.Item Open Access Telemetric tracking of scatterhoarding and seed fate in a Central African forest(Biotropica, 2017-03-01) Rosin, Cooper; Poulsen, John R© 2016 The Association for Tropical Biology and Conservation In seed predation studies, removal of a seed is only the first step of a dynamic process that may result in dispersal rather than seed death. This process, termed seed fate, has received little attention in African forests, particularly in Central Africa. We experimentally assessed the initial steps of seed fate for two tree species—the large-seeded Pentaclethra macrophylla and the relatively small-seeded Gambeya lacourtiana—in northeastern Gabon. Specifically, we evaluated whether seed size and seed consumer identity are important determinants of seed fate. We established experimental stations under conspecific fruiting trees, each comprising three seeds fitted with telemetric thread tags to facilitate their recovery, and a motion-sensitive camera to identify visiting mammals. In total, animals removed 76 tagged seeds from experimental stations. Small Murid rats and mice primarily removed small Gambeya seeds, whereas large-bodied rodents and mandrills primarily removed large Pentaclethra seeds. Gambeya seeds were carried shorter distances than Pentaclethra seeds and were less likely to be cached. The two large-bodied rodents handled seeds differently: Cricetomys emini larderhoarded nearly all (N = 15 of 16) encountered Pentaclethra seeds deep in burrows, while Atherurus africanus cached all (N = 5 of 5) encountered Pentaclethra seeds singly under 1–3 cm of leaf litter and soil, at an average distance of 24.2 m and a maximum distance of 46.3 m from experimental stations. This study supports the hypothesis that seed fate varies based on seed size and seed consumer identity, and represents the first telemetric experimental evidence of larderhoarding and scatterhoarding in the region.Item Open Access The ecological consequences of forest elephant declines for Afrotropical forests.(Conservation biology : the journal of the Society for Conservation Biology, 2017-10-27) Poulsen, John R; Rosin, Cooper; Meier, Amelia; Mills, Emily; Nuñez, Chase L; Koerner, Sally E; Blanchard, Emily; Callejas, Jennifer; Moore, Sarah; Sowers, MarkPoaching is rapidly extirpating African forest elephants (Loxodonta cyclotis) from most of their historical range, leaving vast areas of elephant-free tropical forest. Elephants are ecological engineers that create and maintain forest habitat, thus their loss will have strong consequences for the composition and structure of Afrotropical forests. We evaluated the roles of forest elephants in seed dispersal, nutrient recycling, and herbivory and physical damage to predict the cascading ecological effects of their population declines. Loss of seed dispersal by elephants will favor tree species dispersed abiotically and by smaller dispersal agents, with tree species composition depending on the downstream effects of changes in elephant nutrient cycling and browsing. Loss of trampling and herbivory of seedlings and saplings will result in high tree density as they are released from the pressures of browsing. Diminished seed dispersal by elephants and high stem density are likely to reduce the recruitment of large trees, resulting in a more homogeneous forest structure and decreased carbon stocks. In sum, the loss of ecological services by forest elephants will likely transform Central African forests to be more like Neotropical forests, from which megafauna were extirpated thousands of years ago. Without intervention, as much as 96% of Central African forests will have modified species composition and structure as elephants are compressed into remaining protected areas. Stopping elephant poaching is an urgent first step to mitigating these effects, but long-term conservation will require land use planning that incorporates elephant habitat into forested landscapes that are being rapidly transformed by industrial agriculture and logging. This article is protected by copyright. All rights reserved.