US: Mao-Ning Tuanmu, doctoral student at Michigan State University’s (MSU) Center for Systems Integration and Sustainability, and his colleagues combined habitat modelling and remote sensing technology. Then, they gained an ability to use one model to monitor various changes over time. Their work, “Temporal transferability of wildlife habitat models: implications for habitat monitoring,” is published online in the Journal of Biogeography.
“Monitoring and projecting future changes are essential for sustainable management of coupled human and natural systems, including wildlife habitat,” said Jianguo “Jack” Liu, Rachel Carson Chair in Sustainability at MSU. “Innovative computer models are urgently needed for effective monitoring and projection.”
Tuanmu focused on panda habitat in Wolong Nature Reserve in southwestern China as part of an ongoing interdisciplinary effort to understand changes in the home of the Giant Panda, including the effects of human activities, land use/cover changes and implementation of conservation programmes.
“We built an integrated model at one point in time and then used that same model over different time periods,” Tuanmu said. “We need more models like this one with good transferability to monitor short-term and project long-term changes in species distribution and habitat quality.”
Besides Tuanmu, other authors from the center are Liu, Andrés Viña, academic specialist, Wei Liu, doctoral student, as well as Gary Roloff, MSU assistant professor of fisheries and wildlife; Zhiyun Ouyang, professor at the Chinese Academy of Science and Hemin Zhang, director of the Wolong Nature Reserve.
This study was supported by the National Science Foundation (Dynamics of Coupled Natural and Human Systems and Partnership for International Research and Education) and the NASA Land Use/Land Cover Change program, Terrestrial Ecology and Biodiversity program, and Earth and Space Science Fellowship.
Source: Science Daily