Assessing the Suitability of Habitat for Wintering Siberian Cranes (Leucogeranus leucogeranus) at Different Water Levels in Poyang Lake Area, China

Chen, B.; Cui, P.; Xu, H.; Lu, X.; Lei, J.; Wu, Y.; Shao, M.; Ding, H.; Wu, J.; Cao, M.; Liu, G.

doi:10.3161/15052249PJE2016.64.1.008

Artykuł - szczegóły

Tytuł artykułu

Assessing the Suitability of Habitat for Wintering Siberian Cranes (Leucogeranus leucogeranus) at Different Water Levels in Poyang Lake Area, China

Autorzy

Chen B. , Cui P. , Xu H. , Lu X. , Lei J. , Wu Y. , Shao M. , Ding H. , Wu J. , Cao M. , Liu G.

Wybrane pełne teksty z tego czasopisma

http://www.miiz.waw.pl/index.php/pl/wydawnictwa/polish-journal-of-ecology

Identyfikatory

DOI

10.3161/15052249PJE2016.64.1.008

Warianty tytułu

Języki publikacji

Abstrakty

Poyang lake area (1000–3246 km²) is the most important wintering ground for the globally critically endangered Siberian crane (Leucogeranus leucogeranus). More than 98% of the Siberian crane population overwinters in Poyang lake area. Remote-sensing and the spatial analysis tools of geographic information system (GIS) technology were used to assess the suitability of the habitat for wintering Siberian cranes in Poyang lake area at different water levels. The results demonstrated that as the water level increased within the range of 7.93–12.16 m, the area of unsuitable habitat increased gradually, but the areas of good, fair and poor habitat decreased. When the water level reached 12.16 m, good habitat for Siberian cranes covered an area of only 3005 ha, which is only 0.93% of the area of the total lake area. When human disturbance factors including vehicles, fishing and construction activities were added to the analysis of the current distribution of Siberian crane habitat, the results again indicated that the area of good habitat decreased with an increase in water level within the range of 7.93–12.16 m. Additionally, the areas of good habitat occurred primarily in the region of two national nature reserves, which are the Poyang Lake National Nature Reserve and the Nanjishan National Nature Reserve. Our study provides important data and an important theoretical basis for water level management and nature reserve construction in Poyang lake area.

Słowa kluczowe

Leucogeranus leucogeranus habitat suitability water level GIS Poyang Lake

Leucogeranus leucogeranus odpowiedniość środowiska poziom wody GIS Jezioro Poyang Poyang Hu

Wydawca

Museum and Institute of Zoology, Polish Academy of Sciences

Czasopismo

Polish Journal of Ecology

Rocznik

2016

Tom

Vol. 64, nr 1

Strony

84--97

Opis fizyczny

Bibliogr. 57 poz., mapa, tab., wykr.

Twórcy

autor

Chen B.

Nanjing Institute of Environmental Sciences, Ministry of Environmental Protection, Nanjing 210042, China
Biodiversity Research Center, Chinese Research Academy of Environmental Sciences, Beijing 100012, China

autor

Cui P.

cuipeng1126@163.com

Nanjing Institute of Environmental Sciences, Ministry of Environmental Protection, Nanjing 210042, China

autor

Xu H.

Nanjing Institute of Environmental Sciences, Ministry of Environmental Protection, Nanjing 210042, China

autor

Lu X.

Nanjing Institute of Environmental Sciences, Ministry of Environmental Protection, Nanjing 210042, China

autor

Lei J.

Nanjing Institute of Environmental Sciences, Ministry of Environmental Protection, Nanjing 210042, China

autor

Wu Y.

Nanjing Institute of Environmental Sciences, Ministry of Environmental Protection, Nanjing 210042, China

autor

Shao M.

College of Life Science, Jiangxi Normal University, Nanchang 330022, China

autor

Ding H.

Nanjing Institute of Environmental Sciences, Ministry of Environmental Protection, Nanjing 210042, China

autor

Wu J.

Nanjing Institute of Environmental Sciences, Ministry of Environmental Protection, Nanjing 210042, China

autor

Cao M.

Nanjing Institute of Environmental Sciences, Ministry of Environmental Protection, Nanjing 210042, China

autor

Liu G.

Jiangxi Poyang Lake National Nature Reserve, Nanchang 330038, China

Bibliografia

[1] Ali H. , Saleem R. , Qamer F. M. , Khan W. A. , Abbas S. , Gunasekara K. , Hazarika M. , Ahmed M. S. , Akhtar M. 2010 — Habitat evaluation of smooth-coated otter (Lutrogale perspicillata) in Indus plains of Pakistan using remote sensing and GIS — Int. Arch. Photogramm. Remote Sensing Spatial Inform. Sci. 38: 127–132.
[2] Barzen J. , Engels M. , Burnham J. , Harris J. , Wu G. 2009 — Potential impacts of a water control structure on the abundance and distribution of wintering waterbirds at Poyang Lake — Unpublished report submitted to Hydro-Ecology Institute of the Yangtze Water Resources Commission. Baraboo, Wisconsin: International Crane Foundation.
[3] Barzen J. , Burnham J. W. , Li F. S. , Harris J. 2011 — How do Siberian cranes and other tuber feeding birds respond to a flood-induced lack of tubers at Poyang Lake — Waterbirds, 4: 6–8.
[4] Bradley B. A. , Olsson A. D. , Wang O. , Dickson B. G. , Pelech L. , Sesnie S. E. , Zachmann L. J. 2012 — Species detection vs. habitat suitability: Are we biasing habitat suitability models with remotely sensed data? — Ecol. Model. 244: 57–64.
[5] Brotons L. , Thuiller W. , Araújo M. B. , Hirzel A. H. 2004 — Presence-absence versus presence-only modelling methods for predicting bird habitat suitability — Ecography, 27: 437–448.
[6] Burnham J. W. 2007 — Environmental drivers of Siberian crane (Grus leucogeranus) habitat selection and wetland management and conservation in China — Dissertation, University of Wisconsin-Madison.
[7] Cao M. C. , Liu G. H. , Shan K. , Hou Y. X. , Wang M. C. , Li D. L. , Shen W. M. 2010 — A multi-scale assessment of habitat suitability of red-crowned crane at the Yellow River Delta Nature Reserve, Shandong, China — Biodiversity Science, 18: 283– (in Chinese).
[8] Chen Y. Y. , Jessel B. 2011 — Ecosystem services and management strategy in China 1st ed. — China Environmental Science Press, Beijing, 98 pp. (in Chinese).
[9] Crosby M. J. 2003 — Saving Asia's Threatened Birds — Bird Life International, Cambridge, U.K.
[10] Cui X. H. , Zhong Y. , Chen J. K. 2000 — Influence of a Catastrophic Flood on Densities and Biomasses of Three Plant Species in Poyang Lake, China — J. Freshwater. Ecol. 15: 537–541.
[11] Dong Z. , Wang Z. , Liu D. , Li L. , Ren C. , Tang X. , Jia M. , Liu C. 2013 — Assessment of habitat suitability for waterbirds in the West Songnen Plain, China, using remote sensing and GIS — Ecol. Eng. 55: 94–100.
[12] Dronova I. , Gong P. , Wang L. 2011 — Object-based analysis and change detection of major wetland cover types and their classification uncertainty during the low water period at Poyang Lake, China — Remote. Sens. Environ. 115: 3220–3236.
[13] Gottschalk T. K. , Huettmann F. , Ehlers M. 2005 — Thirty years of analyzing and modelling avian habitat relationships using satellite imagery data: a review — Int. J. Remote. Sens. 26: 2631–2656.
[14] Guo H. , Hu Q. , Zhang Q. , Feng S. 2012 — Effects of the three gorges dam on Yangtze river flow and river interaction with Poyang Lake, China: 2003–2008 — J. Hydrol. 416–417: 19–27.
[15] Hudon C. 1997 — Impact of water level fluctuations on St. Lawrence River aquatic vegetation — Can. J. Fish. Aquat. Sci. 54: 2853–2865.
[16] Hu Q. , Feng S. , Guo H. , Chen G. , Jiang T. 2007 — Interactions of the Yangtze river flow and hydrologic processes of the Poyang Lake, China — J. Hydrol. 347: 90–100.
[17] Hu Z. P. , Ge G. , Liu C. L. , Chen F. S. , Li S. 2010 — Structure of Poyang Lake wetland plants ecosystem and influence of lake water level for the structure — Resources and Environment in the Yangtze Basin, 19: 597–605 (in Chinese).
[18] Hu Z. P. 2012 — The Habitat Characteristics of White Cranes to Live through the Winter in Poyang Lake and the Reaction for Water Level Changing in the Lake — Jiangxi Science, 30: 30–35 (in Chinese).
[19] Hu Z. P. , Ge G. , Liu C. L. 2014 — Response of Wintering Migratory Birds to Hydrological Processes in Poyang Lake — J. Nat. Res. 29: 1770–1779 (in Chinese).
[20] Imam E. , Kushwaha S. P. S. 2013 — Habitat suitability modelling for Gaur (Bos gaurus) using multiple logistic regression, remote sensing and GIS — J. Appl. Anim. Res. 41: 189–199.
[21] Isola C. R. , Colwell M. A. , Taft O. W. , Safran R. J. 2000 — Interspecific differences in habitat use of shorebirds and waterfowl foraging in managed wetlands of California's San Joaquin Valley — Waterbirds, 23: 196–203.
[22] IUCN. 2013 — The IUCN Red List of Threatened Species. Version 2013.2. http://www.iucnredlist.org.
[23] Jia Y. F. , Jiao S. W. , Zhang Y. M. , Zhou Y. , Lei G. C. , Liu G. H. 2013 — Diet Shift and Its Impact on Foraging Behavior of Siberian Crane (Grus leucogeranus) in Poyang Lake — Plos One, 8: e65843.
[24] Jia Y. F. 2013 — Effects of Poyang Lake water level fluctuations on overwintering Siberian cranes and waterfowls — Dissertation, Beijing Forestry University.
[25] Kerr J. T. , Ostrovsky M. 2003 — From space to species: ecological applications for remote sensing — Trends. Ecol. Evol. 18: 299–305.
[26] Kumar S. , Stohlgren T. J. 2009 — Maxent modeling for predicting suitable habitat for threatened and endangered tree in New Caledonia — J. Ecol. Nat. Environ. 1: 94–98.
[27] Kong W. Y. , Zheng Z. H. , Wu J. C. , Ning Y. , Wang Y. , Han X. D. 2013 — Foraging habitat selection of Siberian Crane (Grus leucogeranus) during autumn migration period in the Momoge Nature Reserve — Zoological Research, 34: 166–173 (in Chinese).
[28] Liang G. F. , Ding S. Y. 2004 — Impacts of human activity and natural change on the wetland landscape pattern along the Yellow River in Henan Province — J. Geogr. Sci. 14: 339–348.
[29] Li F. S. , Wu J. D. , Harris J. , Burnham J. 2012 — Number and distribution of cranes wintering at Poyang Lake, China during 2011–2012 — Chinese Birds, 3: 180–190.
[30] Liu C. L. , Tan Y. J. , Lin L. S. , Tao H. N. , Tan H. R. 2011 — The wetland water level process and habitat of migratory birds in Lake Poyang — Journal of Lake Science, 23: 129–135 (in Chinese).
[31] MacArthur R. H. , MacArthur J. W. , Preer J. 1962 — On bird species diversity. II. Prediction of bird census from habitat measurements — Am. Nat. 96: 167–174.
[32] Ma Z. J. , Cai Y. T. , Li B. , Chen J. 2010 — Managing wetland habitats for waterbirds: An international perspective — Wetlands, 30: 15–27.
[33] MacKinnon J. , Verkuil Y. I. , Murray N. 2012 — IUCN situation analysis on East and Southeast Asian intertidal habitats, with particular reference to the Yellow Sea (including the Bohai Sea). Occasional Paper of the IUCN Species Survival Commission No. 47, International Union for Conservation of Nature, Gland, Switzerland.
[34] McDermid G. , Hall R. , Sanchez-Azofeifa G. , Franklin S. , Stenhouse G. , Kobliuk T. , LeDrew E. 2009 — Remote sensing and forest inventory for wildlife habitat assessment — Forest. Ecol. Manag. 257: 2262–2269.
[35] Meine C. , Archibald G. W. 1996 — The Cranes: Status, Survey, and Conservation Action Plan. IUCN.
[36] Melin M. , Packalén P. , Matala J. , Mehtätalo L. , Pusenius J. 2013 — Assessing and modeling moose (Alces alces) habitats with airborne laser scanning data — Int. J. Appl. Earth. Obs. 23: 389–396.
[37] Mistry J. , Berardi A. , Simpson M. 2008 — Birds as indicators of wetland status and change in the North Rupununi, Guyana — Biodivers. Conserv. 17: 2383–2409.
[38] Nagendra H. , Lucas R. , Honrado J. P. , Jongman R. H. , Tarantino C. , Adamo M. , Mairota P. 2012 — Remote sensing for conservation monitoring: Assessing nature reserves, habitat extent, habitat condition, species diversity, and threats — Ecol. Indic. 33: 45–59.
[39] Pimm S. , Raven P. , Peterson A. , Şekercioğlu Ç. H. , Ehrlich P. R. 2006 — Human impacts on the rates of recent, present, and future bird extinctions — Proc. Natl. Acad. Sci. USA, 103: 10941–10946.
[40] Ouyang Z. Y. , Liu J. G. , Xiao H. , Tan Y. C. , Zhang H. M. 2001 — An assessment of giant panda habitat in Wolong Nature Reserve — Acta. Ecol. Sin. 21: 1869–1874.
[41] Qi S. H. , Gong J. , Shu X. B. , Chen L. F. 2010 — Study on inundation extent, water depth and storage capacity of Poyang Lake by RS — Yangtze River, 41: 35–38 (in Chinese).
[42] Qi S. H. , Liao F. Q. 2013 — A study on the scheme of water level regulation of the Poyang Lake hydraulic project — Acta Geographica Sinica, 68:115–123 (in Chinese).
[43] Sah J. P. , Ross M. S. , Saha S. , Minchin P. , Sadle J. 2014 — Trajectories of Vegetation Response to Water Management in Taylor Slough, Everglades National Park, Florida — Wetlands, 34: 65–79.
[44] Sauey R. T. 1985 — The range, status, and winter ecology of the Siberian Crane (Grus leucogeranus) Dissertation, Cornell University.
[45] Shankman D. , Liang Q. 2003 — Landscape Changes and Increasing Flood Frequency in China's Poyang Lake Region — The Professional Geographer, 55: 434–445.
[46] Shan J. H. , Ma J. Z. , Li Y. K. , Qian F. W. , Tu X. B. 2012 — Population and distribution of the Siberian crane (Grus leucogeranus) wintering in the Poyang lakes over the past decade — Zoological Research, 33: 355–361.
[47] Sun Z. Y. , Huang X. F. 2010 — Analysis on the Characteristics of Feeding Habitat of the Wintering Siberian Crane in Poyang Lake — Chinese Journal of Zoology, 45: 46–52 (in Chinese).
[48] Van Geest G. J. , Coops H. , Roijackers R. M. M. , Buijse A. D. , Scheffer M. 2005 — Succession of aquatic vegetation driven by reduced water-level fluctuations in floodplain lakes — J. Appl. Ecol. 42: 251–260.
[49] Tsoar A. , Allouche O. , Steinitz O. , Rotem D. , Kadmon R. 2007 — A comparative evaluation of presence-only methods for modelling species distribution — Divers. Distrib. 13:397–405.
[50] Wang K. , Xiong X. M. 2008 — Water depth remote sensing research base on TM image, Proceedings of the Third National Conference of Imitator.
[51] Wang H. , Gao J. , Ren L. L. , Kong Y. , Li H. , Li L. 2012 — Assessment of the red-crowned crane habitat in the Yellow River Delta Nature Reserve, East China — Reg. Environ. Change. 13: 115–123.
[52] Wu J. D. , Li F. S. , Burnham J. 2013 — Numerical Distribution of Siberian Cranes and Their Relation to Food and Water Depth in Sha Hu at Poyang Lake, China — Wetland Science, 11: 305–312 (in Chinese).
[53] Xia S. X. , Yu X. B. , Fan N. 2010 — The Wintering Habitats of Migrant Birds and Their Relationship with Water Level in Poyang Lake, China — Resources Science, 32: 2072–2078 (in Chinese).
[54] Xu C. X. , Ruan L. Z. , Hu Z. P. , Li S. 2014 — The research on winter bird population dynamic and conservation in Poyang Lake — Resources and Environment in the Yangtze Basin, 23: 407–414 (in Chinese).
[55] Yésou H. , Huber C. , Lai X. J. , Averty S. , Li J. R. , Daillet S. , Bergé-Nguyen M. , Chen X. L. , Huang S. F. , James B. , Crétaux J. F. , Marie T. , Li J. G. , Andreoli R. , Uribe C. 2011 — Nine years of water resources monitoring over the middle reaches of the Yangtze River, with ENVISAT, MODIS, Beijing-1 time series, Altimetric data and field measurements — Lakes & Reservoirs: Research & Management, 16: 231–247.
[56] Zhang L. L. , Yin J. X. , Jiang Y. Z. , Wang H. 2012 — Relationship between the hydrological conditions and the distribution of vegetation communities within the Poyang Lake National Nature Reserve — China. Ecol. Inform. 11: 65–75.
[57] Zhao Z. X. , Yin J. , Huang Z. F. , Weng B. S. , Zhang B. , Yan D. H. 2012 — Nest Habitat Suitability Modeling for Red-Crown Crane (Grus japonensis) Based on Ecological Niche Factor Analysis (In: Proceedings of the 2011, International Conference on Informatics, Cybernetics, and Computer Engineering (ICCE2011) November 19–20, 2011) — Melbourne, Australia. Springer, pp. 555–566.

Uwagi

Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-3881d94a-8439-41f9-a25b-547925889eb5