基本信息
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职业迁徙
个人简介
My past research interests have focused on using geographic information systems (GIS) and remote sensing data for predicting patterns of species richness and rarity for plants and birds at a regional spatial scale.
Biodiversity Research
My botanical research will continue to focus on surveying tropical dry forests in biodiversity hotspots. I have collected floristic data from Wallacea, Sundaland, Indo-Burma, Mesoamerica, New Caledonia, and Caribbean hotspots and within four years, I will collect data from a number of other tropical dry forests in biodiversity hotspots. This research is field intensive and taxonomically challenging but provides comparative floristic and structural data for regions where relatively little information exists. This research will result in a number of publications on global conservation priorities, natural resource management, and tropical ecology and will be used as ground truth data for remote sensing studies of anthropogenic disturbance and estimates of forest biomass.
My faunal research has focused predominately on tropical bird communities, but I have published papers on mammal and herpetofauna diversity. My long-term research agenda for fauna will focus primarily on combining detailed natural history and field data with remote sensing data to model species distributions and probability of extinction in fragmented landscapes. Models of species distributions will also be examined for a number of environmental change scenarios to predict the future distribution of species.
Remote Sensing Research
My remote sensing research is divided into airborne and spaceborne sensors that can be used to measure and monitor terrestrial vegetation. My spaceborne sensor research focuses specifically on high-resolution data from Landsat and IKONOS satellites to test hypotheses on the utility of these sensors for predicting floristic composition and structure in fragmented landscapes and to develop new algorithms that predict the distribution and abundance of endangered species. Advances in geographic information systems and remote sensing techniques have resulted in a number of landscape metrics and indices that may be used to predict the distribution of species richness in habitat fragments. I am currently testing the utility and accuracy of landscape metrics and remote sensing indices for predicting patterns of woody plant species richness and rarity in tropical dry forests of south Florida and Oceania. In particular, I focus on testing the accuracy of landscape metrics within three fragmented systems: anthropogenic fragments, natural habitat fragments, and true islands. The long-term goal is to develop algorithms that predict the distribution of plants and endangered species in other tropical dry forest regions and California ecosystems.
Biodiversity Research
My botanical research will continue to focus on surveying tropical dry forests in biodiversity hotspots. I have collected floristic data from Wallacea, Sundaland, Indo-Burma, Mesoamerica, New Caledonia, and Caribbean hotspots and within four years, I will collect data from a number of other tropical dry forests in biodiversity hotspots. This research is field intensive and taxonomically challenging but provides comparative floristic and structural data for regions where relatively little information exists. This research will result in a number of publications on global conservation priorities, natural resource management, and tropical ecology and will be used as ground truth data for remote sensing studies of anthropogenic disturbance and estimates of forest biomass.
My faunal research has focused predominately on tropical bird communities, but I have published papers on mammal and herpetofauna diversity. My long-term research agenda for fauna will focus primarily on combining detailed natural history and field data with remote sensing data to model species distributions and probability of extinction in fragmented landscapes. Models of species distributions will also be examined for a number of environmental change scenarios to predict the future distribution of species.
Remote Sensing Research
My remote sensing research is divided into airborne and spaceborne sensors that can be used to measure and monitor terrestrial vegetation. My spaceborne sensor research focuses specifically on high-resolution data from Landsat and IKONOS satellites to test hypotheses on the utility of these sensors for predicting floristic composition and structure in fragmented landscapes and to develop new algorithms that predict the distribution and abundance of endangered species. Advances in geographic information systems and remote sensing techniques have resulted in a number of landscape metrics and indices that may be used to predict the distribution of species richness in habitat fragments. I am currently testing the utility and accuracy of landscape metrics and remote sensing indices for predicting patterns of woody plant species richness and rarity in tropical dry forests of south Florida and Oceania. In particular, I focus on testing the accuracy of landscape metrics within three fragmented systems: anthropogenic fragments, natural habitat fragments, and true islands. The long-term goal is to develop algorithms that predict the distribution of plants and endangered species in other tropical dry forest regions and California ecosystems.
研究兴趣
论文共 284 篇作者统计合作学者相似作者
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Brooke M. Talbot,Julie A. Clennon, Miarintsoa Fara Nantenaina Rakotoarison, Lydia Rautman, Sarah Durry, Leo J. Ragazzo,Patricia C. Wright,Thomas R. Gillespie,Timothy D. Read
PEERJ (2024)
Emily K Strahan, Jacob Witherbee,Richard Bergl,Elizabeth V Lonsdorf,Dismas Mwacha,Deus Mjungu,Mimi Arandjelovic,Romanus Ikfuingei,Karen Terio,Dominic A Travis,Thomas R Gillespie
Emerging infectious diseasesno. 3 (2024): 577-580
Monica Dimson,Kyle C. Cavanaugh, Erica von Allmen, David A. Burney, Kapua Kawelo, Jane Beachy,Thomas W. Gillespie
Ecological Informatics (2024): 102821
Elsevier eBookspp.197-213, (2024)
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Progress in Physical Geography: Earth and Environment (2024)
Ferry Slik,Bruno X. Pinho,Daniel M. Griffith,Edward Webb,Akhilesh Singh Raghubanshi, Adriano C. Quaresma,Aida Cuni Sanchez, Aisha Sultana, Alexandre F. Souza, Andreas Ensslin,Andreas Hemp, Andrew Lowe,Andrew R. Marshall, Kamalakumari Anitha, Anne Mette Lykke, Armadyanto,Asyraf Mansor, Atsri K. Honam, Axel D. Poulsen,Ben Sparrow, Benjamin J. W. Buckley,Bernat Ripoll Capilla,Bianca Weiss Albuquerque, Christine B. Schmitt, Dharmalingam Mohandass, Diogo S. B. Rocha,Douglas Sheil, Eduardo A. Perez-Garcia, Eduardo Catharino,Eduardo van den Berg,Ervan Rutishauser, Fabian Brambach,Felipe Zamborlini Saiter, Feyera Senbeta,Florian Wittmann, Francesco Rovero, Francisco Mora Ardila,Frans Bongers,Gabriella M. Fredriksson,Gemma Rutten, Gerard Imani, Gerardo A. Aymard Corredor, Giselda Durigan, Gopal Shukla,Guadalupe Williams-Linera, Heike Culmsee,Hendrik Segah, Inigo Granzow-de la Cerda, Jamuna S. Singh, James Grogan,Jan Reitsma, Jean-Francois Bastin, Jeremy Lindsell,Jerome Millet, Joao Roberto dos Santos, Jochen Schoengart,John H. Vandermeer, John Herbohn, Jon Lovett,Jorge A. Meave,Jose Roberto Rodrigues Pinto, Juan Carlos Montero, Kalle Ruokolainen, Khairil Bin Mahmud,Layon O. Demarchi,Lourens Poorter, Luis Bernacci,Manichanh Satdichanh, Marcio Seiji Suganuma,Maria T. F. Piedade, Mariarty A. Niun, Mark E. Harrison,Mark Schulze,Markus Fischer,Michael Kessler, Miguel Castillo, Mohammad Shah Hussain,Moses B. Libalah,Muhammad Ali Imron, Narayanaswamy Parthasarathy,Naret Seuaturien,Natalia Targhetta,Ni Putu Diana Mahayani,Nigel C. A. Pitman, Orlando Rangel, Pantaleo Munishi, Patricia Balvanera,Peter Ashton, Pia Parolin,Polyanna da Conceicao Bispo, Priya Davidar,Rahayu Sukri, Rahmad Zakaria, Rama Chandra Prasad, Ravi K. Chaturvedi,Robert Steinmetz,Rodrigo Munoz, Rozainah Mohamad Zakaria, Saara J. DeWalt,Hoang Van Sam,Samir Rolim,Sharif Ahmed Mukul, Siti Maimunah, Swapan Kumar Sarker,Terry Sunderland,Thomas Gillespie, Tinde van Andel, Tran Van Do, Wanlop Chutipong,Runguo Zang,Xiaobo Yang,Xinghui Lu, Yves Laumonier, Zhila Hemati
GLOBAL ECOLOGY AND BIOGEOGRAPHY (2024)
Annual Review of Anthropology (2024)
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作者统计
#Papers: 284
#Citation: 12606
H-Index: 60
G-Index: 105
Sociability: 8
Diversity: 0
Activity: 2
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