Browsing by Subject "Tropical forest"
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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 Defaunation of large mammals alters understory vegetation and functional importance of invertebrates in an Afrotropical forest(Biological Conservation, 2020-01-01) Lamperty, Therese; Zhu, Kai; Poulsen, John R; Dunham, Amy EHunting has reduced or eliminated large-bodied vertebrates in many areas across the tropics, contributing to the global process of defaunation. Elucidating the ecological consequences of hunting has important implications for managing ecosystems and for our understanding of community and ecosystem ecology. We present data collected through a combination of comparative and experimental approaches to assess how faunally-intact and heavily-hunted forests in Gabon differ in understory vegetation structure, macroinvertebrate fauna, ecological processes, and the relative importance of different taxa driving those processes. Our results show that hunted sites had denser understory vegetation and hosted approximately 170 times fewer termites compared to faunally-intact sites. While web-building spiders were positively associated with understory vegetation density, this effect did not translate to significantly higher abundances in heavily-hunted forests. Additionally, the overall rates of decomposition, insectivory, and seed predation/removal on the forest floor appeared robust to both defaunation and the associated increases in understory vegetation density. However, our exclosure experiments revealed that the contribution of invertebrates to decomposition was approximately 25% lower in hunted sites compared to faunally-intact sites. Results suggest potential resilience in this complex ecosystem such that microbial or other taxa not measured in this study may compensate for the reduced functional contribution of invertebrates to decomposition. However, while our results illustrate potential resilience, they also indicate that indirect effects following defaunation, such as increases in the density of understory vegetation, may alter invertebrate communities on the forest floor, with potential consequences for the mechanisms, and therefore the dynamics, driving critical ecosystem processes.Item Open Access Local Community Values and Perceptions of Natural Resource Management in Northeast Gabon(2017-04-28) Hamilton, NinaConservation and development activities could positively or negatively affect communities dependent upon natural resources to sustain their livelihoods. Yet, community values and priorities are often not considered in landscape-level management decisions. This study pilots the use of value mapping as a means of documenting the importance of forest resources for rural communities living in multi-use forests in northeastern Gabon. Community mapping with a resource prioritization activity, in which participants distribute tokens across the map to score resources by their importance to local livelihoods, was conducted in 10 villages to assess local values and perceived threats to natural resources, and identify potential solutions to address local concerns. Perceptions of forest access and community forests as a community-based environmental management approach were also investigated through surveys and key informant interviews. Findings suggest that crops are the most highly valued resource and communities value a wide range of forest resources. There are significant differences in how men and women value natural resources, closely linked to the traditional roles that each gender plays in natural resource use. Community members identified forests elephants and logging operations as the greatest threats to resources, but put the onus of designing and implementing solutions on the State. Despite an overall positive perception of forest access, satisfaction with forest access increased with distance to the national park. There was widespread awareness among village chiefs about the benefits of community forests for forest protection and community development. However, there remain significant barriers to the establishment of community forests, including the lack of village scale community organizing and technical assistance. To integrate local communities into the decision-making process regarding access rights to natural resources, I recommend prioritizing: (1) mitigation of crop raiding with transition to intensified agriculture, (2) work with forestry operators and NGOs to improve local perceptions of industrial logging operations and promote community forestry, and (3) implement a decentralized approach for communities to access information on and participate in regional land-use decisions. These steps would likely mitigate tension that could derail national conservation and development goals, while promoting strategies that are compatible with both local and national interests.Item Open Access Measuring protected areas’ impact on deforestation in Panama(2010-12-10) Haruna, AkikoThroughout the last century, protected areas (PAs) have been the major policy instrument for forest conservation worldwide, as well as in the Republic of Panama. The country has strived to lower the decline in its tropical forest cover which is rich in biodiversity. The importance of evaluating existing forest policies has been increasing, especially with emergence of financial incentives given to mitigation of deforestation. Few studies, however, have examined the effectiveness of forest policies in Panama, including the adoption of PAs. This study evaluates the impact of PAs on deforestation rates in Panama through the use of matching methods. The methods are used to adjust observable selection bias of PAs location. The conventional evaluation methods for protected areas failed to consider such bias, thus results using matching methods were expected to give less distorted estimates of the impact. Two types of matching methods were applied to obtain the estimated impacts of PAs, namely propensity score matching and covariate matching. The results were compared with those from the conventional evaluation methods. Countrywide forested plots in two time periods, 1992-2000, and 2000-2005 were examined. The results indicated positive effects of PAs on prevention of deforestation. They also revealed that conventional evaluation methods overestimated the impact of PAs. Such results agree with the previous matching analysis done for other geographic regions. It seems that the magnitude of the impact was enhanced in areas where high deforestation pressure existed. There was an indication of a geographical shift of deforestation frontiers toward remote areas with time. Bias-adjusted estimates for evaluation of PAs will be critical for formulation of future policy. With PAs being effective in avoiding deforestation, the future focus should be on where to put major resources for protection. As deforestation drivers make the deforestation frontier shift geographically, PAs will need to meet needs of covering forests under large threat in the present and the future.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 Road Impact on Deforestation and Jaguar Habitat Loss in the Mayan Forest(2008-07-25) Conde Ovando, Dalia AmorThe construction of roads, either as an economic tool or as necessity for the implementation of other infrastructure projects is increasing in the tropical forest worldwide. However, roads are one of the main deforestation drivers in the tropics. In this study we analyzed the impact of road investments on both deforestation and jaguar habitat loss, in the Mayan Forest. As well we used these results to forecast the impact of two road investments planned in the region. Our results show that roads are the single deforestation driver in low developed areas, whether many other drivers play and important role in high developed areas. In the short term, the impact of a road in a low developed area is lower than in a road in a high developed area, which could be the result of the lag effect between road construction and forest colonization. This is consistent since roads resulted to be a significant deforestation driver for at least two decades. Roads significantly affect jaguar's habitat selection; however males showed a higher tolerance than females. From 1980 to 2000 female jaguars lost 36% of their habitat wile males lost 22%. Our forecasting of the impact of the proposed road, shows that it will promote the deforestation of approximately 16,851 has, and the jaguar habitat loss of 146,929, during the first decade; meanwhile the alternative route will have and impact of 2519 hectares and the habitat loss of 899 hectares.