Luke Rostant scite author profile

1.There is considerable debate about whether tropical forests can be managed for timber production and to conserve biodiversity. Few 'sustainable forestry' systems have been evaluated adequately in this respect. Microchiropteran bats may be model taxa for this purpose. They are an important component of mammalian diversity, play key roles in forest dynamics and are indicators of disturbance in neotropical forests. 2. We investigated the effect of Trinidad's periodic block system (PBS) on bat species diversity and community organization. PBS is a polycyclic system of selective logging with a 30-year harvesting rotation. We captured bats in primary forest and PBS-managed forest logged 33, 31, 21, 20 and 10 years previously. 3. Selective logging did not affect species diversity but did affect community structure. Frugivorous bats were significantly more abundant in logged forest whereas gleaning animalivores were more abundant in primary forest, suggesting that frugivores benefited and gleaning animalivores were adversely affected by logging. 4. The bat community showed evidence of recovery. The number of years since forest disturbance was positively correlated with the abundance and number of species of gleaning animalivores and negatively correlated with the proportional abundance of the most common species. Gleaning animalivores increased in abundance with forest regeneration, whereas the community became less dominated by a single generalist frugivore. 5. Synthesis and applications . PBS selective logging appears to be compatible with the conservation of bat diversity. This provides evidence that neotropical forests can be managed for timber production in an ecologically sustainable way and that significant biodiversity conservation efforts can occur outside national parks and nature reserves in areas set aside for sustainable development. PBS could serve as a basic blueprint for sustainable forestry in the Guianan Shield where there are forests similar in species composition to those of Trinidad. Key attributes that could be adopted by many tropical countries to manage their forests in an ecologically sustainable way are a low intensity harvest, a long rotation and multiple controls on harvesting.

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Empowering Local People through Community-based Resource Monitoring: a Comparison of Brazil and Namibia

Constantino¹,

Carlos²,

Ramalho³

et al. 2012

E&S

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ABSTRACT. Biological resource monitoring systems are implemented in many countries and often depend on the participation of local people. It has been suggested that these systems empower local participants while promoting conservation. We reviewed three wildlife monitoring systems in indigenous lands and sustainable development reserves in Brazilian Amazonia and one in Namibian Caprivi conservancies, analyzing the strategies adopted and conditions that facilitated local empowerment, as well as potential impacts on conservation. This provided insights into potential avenues to strengthen empowerment outcomes of monitoring systems in Latin America and Africa. We assessed four dimensions of empowerment at individual and community scales: psychological, social, economic, and political. The conditions that facilitated local empowerment included the value of natural resources, rights to trade and manage resources, political organization of communities, and collaboration by stakeholders. The wide range of strategies to empower local people included intensifying local participation, linking them to local education, feeding information back to communities, purposefully selecting participants, paying for monitoring services, marketing monitored resources, and inserting local people into broader politics. Although communities were socially and politically empowered, the monitoring systems more often promoted individual empowerment. Marketing of natural resources promoted higher economic empowerment in conservancies in Namibia, whereas information dissemination was better in Brazil because of integrated education programs. We suggest that practitioners take advantage of local facilitating conditions to enhance the empowerment of communities, bearing in mind that increasing autonomy to make management decisions may not agree with international conservation goals. Our comparative analysis of cases in Latin America and Africa allows for a greater understanding of the relationships between resource monitoring systems, local empowerment, and conservation.

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Application of Object Based Classification and High Resolution Satellite Imagery for Savanna Ecosystem Analysis

et al. 2010

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Savanna ecosystems are an important component of dryland regions and yet are exceedingly difficult to study using satellite imagery. Savannas are composed are varying amounts of trees, shrubs and grasses and typically traditional classification schemes or vegetation indices cannot differentiate across class type. This research utilizes object based classification (OBC) for a region in Namibia, using IKONOS imagery, to help differentiate tree canopies and therefore woodland savanna, from shrub or grasslands. The methodology involved the identification and isolation of tree canopies within the imagery and the creation of tree polygon layers had an overall accuracy of 84%. In addition, the results were scaled up to a corresponding Landsat image of the same region, and the OBC results compared to corresponding pixel values of NDVI. The results were not compelling, indicating once more the problems of these traditional image analysis techniques for savanna ecosystems. Overall, the use of the OBC holds great promise for this ecosystem and could be utilized more frequently in studies of vegetation structure.

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Applying species distribution modelling to improving conservation based decisions: a gap analysis of Trinidad and Tobago’s endemic vascular plants

et al. 2018

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Utility of DNA barcoding to identify rare endemic vascular plant species in Trinidad

Hosein

Austin

Maharaj

et al. 2017

Ecology and Evolution

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The islands of the Caribbean are considered to be a “biodiversity hotspot.” Collectively, a high level of endemism for several plant groups has been reported for this region. Biodiversity conservation should, in part, be informed by taxonomy, population status, and distribution of flora. One taxonomic impediment to species inventory and management is correct identification as conventional morphology‐based assessment is subject to several caveats. DNA barcoding can be a useful tool to quickly and accurately identify species and has the potential to prompt the discovery of new species. In this study, the ability of DNA barcoding to confirm the identities of 14 endangered endemic vascular plant species in Trinidad was assessed using three DNA barcodes (matK, rbcL, and rpoC1). Herbarium identifications were previously made for all species under study. matK, rbcL, and rpoC1 markers were successful in amplifying target regions for seven of the 14 species. rpoC1 sequences required extensive editing and were unusable. rbcL primers resulted in cleanest reads, however, matK appeared to be superior to rbcL based on a number of parameters assessed including level of DNA polymorphism in the sequences, genetic distance, reference library coverage based on BLASTN statistics, direct sequence comparisons within “best match” and “best close match” criteria, and finally, degree of clustering with moderate to strong bootstrap support (>60%) in neighbor‐joining tree‐based comparisons. The performance of both markers seemed to be species‐specific based on the parameters examined. Overall, the Trinidad sequences were accurately identified to the genus level for all endemic plant species successfully amplified and sequenced using both matK and rbcL markers. DNA barcoding can contribute to taxonomic and biodiversity research and will complement efforts to select taxa for various molecular ecology and population genetics studies.

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Luke Rostant

Life after logging: post‐logging recovery of a neotropical bat community

Empowering Local People through Community-based Resource Monitoring: a Comparison of Brazil and Namibia

Application of Object Based Classification and High Resolution Satellite Imagery for Savanna Ecosystem Analysis

Applying species distribution modelling to improving conservation based decisions: a gap analysis of Trinidad and Tobago’s endemic vascular plants

Utility of DNA barcoding to identify rare endemic vascular plant species in Trinidad

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