Spatial Observation of Giant Panda Habitat: Techniques and Methods

Wang, Xinyuan, Zhen, Jing, Meng, Qingkai

  • 出版商: Springer
  • 出版日期: 2024-05-10
  • 售價: $7,630
  • 貴賓價: 9.5$7,249
  • 語言: 英文
  • 頁數: 378
  • 裝訂: Quality Paper - also called trade paper
  • ISBN: 9811987963
  • ISBN-13: 9789811987960
  • 海外代購書籍(需單獨結帳)

相關主題

商品描述

This book evaluates the past, present, and future habitat suitability of giant pandas based on spatial observation technology involving optical remote sensing, microwave remote sensing, and LiDAR to discover the mysterious ecological environment of giant panda habitat. Considering the problems faced by the world natural heritage site protection, it takes the world natural heritage site "Sichuan Giant Panda Sanctuaries - Wolong, Mt Siguniang and Jiajin Mountains" as the research area, exemplifies systematically the various techniques and methodologies of spatial information technology for monitoring, evaluation, and prediction of rare and endangered species habitats, and provides scientific suggestions for sustainable development of giant panda habitat based on a series of comprehensive case analysis at Wolong national nature reserve and Ya'an prefecture, Sichuan province, China. The book serves both as a textbook in the field of natural heritage protection, remote sensing, and GIS application, as well as a reference for managing natural heritage sites.


商品描述(中文翻譯)

本書基於光學遙感、微波遙感和LiDAR等空間觀測技術,評估大熊貓的過去、現在和未來的棲息地適宜性,以揭示大熊貓棲息地的神秘生態環境。考慮到世界自然遺產保護所面臨的問題,本書以世界自然遺產地「四川大熊貓保護區-卧龍、四姑娘山和夾金山」為研究區域,系統地示範了空間信息技術在監測、評估和預測珍稀濒危物種棲息地方面的各種技術和方法,並根據對中國四川省卧龍國家級自然保護區和雅安地區的綜合案例分析,提供了大熊貓棲息地可持續發展的科學建議。本書既可作為自然遺產保護、遙感和GIS應用領域的教材,也可作為管理自然遺產地的參考資料。

作者簡介

Dr. Xinyuan Wang is Professor at the Aerospace Information Research Institute(AIR), Chinese Academy of Sciences. He is also serving as Deputy Director of International Centre on Space Technologies for Natural and Cultural Heritage (HIST) under the Auspices of UNESCO, Chair of Digital Heritage Specialized Committee of China National Committee, International Society for Digital Earth (ISDE), Co-Chair of the Heritage Working Group of the Digital Belt and Road Programme (DBAR), Member of International Council on Monuments and Sites (ICOMOS), and Member of the world heritage Expert Committee of the State Forestry and Grass Administration of China.

Prof. Wang is engaged in the research of remote sensing archeology and digital heritage conservation and application. He had published more than 180 papers and 5 books and published "Context Environment Map of World Cultural Heritage Sites along the Silk Road".

Dr. Jing Zhen is Associate Professor of the Aerospace Information Research Institute (AIR), Chinese Academy of Sciences. She was engaged in the research of remote sensing satellite data acquisition and remote sensing thematic information extraction for more than 20 years. She is also Key Member of International Centre on Space Technologies for Natural and Cultural Heritage (HIST) under the Auspices of UNESCO. Recently, she mainly focused on research of the evaluation and prediction of the impact of climate change on the habitat of giant panda. Based on multi-source remote sensing data and field verification, she has carried out fine-scale evaluation of giant panda habitats and countermeasures against the impacts of climate change. Relevant research results have been published in sustainability of MDPI and the monograph "Space Observation Techniques and Methods of Giant Panda Habitat" published by Science Press. At present, Dr. Zhen is looking forward to do cooperation research with friends all over the world on the impact of climate change and contribute to the monitoring, protection, and sustainable development of world heritage sites.

Dr. Qingkai Meng is Professor at the Institute of Mountain Hazards and Environment (IMHE), Chinese Academy of Sciences. He is also serving as Associate Fellow of International Consortium on Landslides (ICL), Key Member of international network on landslide early warning systems (LandAware), and Member of European Geosciences Union(EGU). He was engaged in the research of landslide monitoring, recognition, early warning, and evaluation by interferometric SAR and multi-remote sensing analysis. He has carried out experiments of various landslide deformation mechanisms in giant panda world heritage sites, Loess Plateau, and Qinghai-Tibet Plateau. He had published more than 10 peer-reviewed papers with high impact index. At present, Dr. Meng is looking forward to do cooperation research with friends all over the world on the landslide science induced by climate change, especially in Qinghai-Tibet Plateau, and contributes to provide sustainable and consolidate monitoring strategy for risk mitigation and prevention.

作者簡介(中文翻譯)

王新元博士是中國科學院航天信息研究院(AIR)的教授。他還擔任聯合國教科文組織(UNESCO)主辦的國際空間技術應用於自然和文化遺產(HIST)國際中心副主任,中國國家委員會國際數字地球學會(ISDE)數字遺產專業委員會主席,數字帶和一帶一路計劃(DBAR)遺產工作組聯合主席,國際古蹟與遺址委員會(ICOMOS)成員,以及中國國家林業和草原管理局世界遺產專家委員會成員。

王教授從事遙感考古和數字遺產保護與應用的研究。他發表了180多篇論文和5本書,並出版了《絲綢之路世界文化遺產地情境環境圖》。

靜真博士是中國科學院航天信息研究院(AIR)的副教授。她從事遙感衛星數據獲取和遙感主題信息提取的研究超過20年。她還是聯合國教科文組織主辦的國際空間技術應用於自然和文化遺產(HIST)國際中心的重要成員。最近,她主要研究氣候變化對大熊貓棲息地的影響評估和預測。基於多源遙感數據和現場驗證,她對大熊貓棲息地進行了精細尺度的評估,並針對氣候變化的影響制定了對策。相關研究成果已發表在MDPI的可持續性期刊上,並由科學出版社出版了《大熊貓棲息地的空間觀測技術和方法》專著。目前,靜博士期待與世界各地的朋友合作研究氣候變化的影響,並為世界遺產地的監測、保護和可持續發展做出貢獻。

孟慶凱博士是中國科學院山地災害與環境研究所(IMHE)的教授。他還擔任國際山地滑坡聯盟(ICL)的副研究員,國際滑坡預警系統網絡(LandAware)的重要成員,以及歐洲地球科學聯盟(EGU)的成員。他從事干涉式合成孔徑雷達和多源遙感分析的滑坡監測、識別、預警和評估研究。他在大熊貓世界遺產地、黃土高原和青藏高原進行了各種滑坡變形機制的實驗。他發表了10多篇具有高影響指數的同行評審論文。目前,孟博士期待與世界各地的朋友合作研究氣候變化引起的滑坡科學,尤其是在青藏高原地區,並為風險緩解和預防提供可持續且穩固的監測策略。