Journal of Geodesy and Geoinformation Science ›› 2020, Vol. 3 ›› Issue (4): 50-59.doi: 10.11947/j.JGGS.2020.0405
Previous Articles Next Articles
Yachang CHENG1,2,3(
),Juliane HUTH4,Yésou HERVÉ5,Nyambayar BATBAYAR6,Changqing DING3,Fengshan LI7,Martin WIKELSKI1,2
Received:2020-09-20
Accepted:2020-11-10
Online:2020-12-20
Published:2021-01-15
About author:Yachang CHENG (1990—), female, doctoral student, majors in avian migration and bio-telemetry.E-mail: Yachang CHENG,Juliane HUTH,Yésou HERVÉ,Nyambayar BATBAYAR,Changqing DING,Fengshan LI,Martin WIKELSKI. Integrating Wintering Waterbird Movements with Earth Observation Data of Wetland Dynamics[J]. Journal of Geodesy and Geoinformation Science, 2020, 3(4): 50-59.
Add to citation manager EndNote|Reference Manager|ProCite|BibTeX|RefWorks
Fig.1
A juvenile White-naped crane with a GPS tracking device and color bands on its legs at its typical habitat at the Poyang Lake area (photo by Yan Lvu)"
Tab.1
Acquisition times of Sentinel-1 data in 2014 and numbers of GPS locations during each period"
| Period | Watermask Acquired date (m-d) | GPS location time range (start/end) | Number of GPS locations |
|---|---|---|---|
| 1 | 11-08 | 11-06/11-10 | 333 |
| 2 | 11-13 | 11-11/11-15 | 328 |
| 3 | 11-20 | 11-18/11-22 | 318 |
| 4 | 11-25 | 11-23/11-27 | 305 |
| 5 | 12-02 | 11-30/12-04 | 313 |
| 6 | 12-07 | 12-05/12-09 | 316 |
| 7 | 12-14 | 12-12/12-16 | 321 |
| 8 | 12-19 | 12-17/12-21 | 320 |
| 9 | 12-26 | 12-24/12-28 | 283 |
Fig.2
Inundation frequency map and White-naped cranes’ diurnal locations in Poyang Lake (November and December of 2014; Colors from green to blue indicate how many times a location was covered with water during 9 satellite observations in 2 months. The points in yellow, red and purple are tracking locations of 3 cranes, respectively)"
Fig.3
Inundation frequency values of associated GPS tracking data points. The curve is the kernel density"
Fig.4
The corresponding inundation frequency of GPS locations in each period. The darkness of the cell in the heat map shows the frequency of a particular inundation value for a certain period"
Fig.5
Boxplot of distance difference (distance to water minus distance to land in meters) for each period, showing the first or third quartiles and median value and outlier as black points. The white circles on the top connected by a line show the respective size of the water surface area (km2) for each period"
| [1] |
ZEDLER J B, KERCHER S. Wetland resources: status, trends, ecosystem services, and restorability[J]. Annual Review of Environment and Resources, 2005,30(1):39-74.
doi: 10.1146/annurev.energy.30.050504.144248 |
| [2] | HARRIS J. Poyang Lake, Yangtze River Basin, China[M] //The Wetland Book. Dordrecht: Springer, 2016. |
| [3] | MENG W, HE M, HU B, Et al. Status of wetlands in China: A review of extent, degradation, issues and recommendations for improvement[J]. Ocean & Coastal Management, 2017,146(9):50-59. |
| [4] | BRINSON M M, MALVÁREZ A I. Temperate freshwater wetlands: types, status, and threats[J]. Environmental Conservation, 2002,29(2):115-33. |
| [5] | DRONOVA I, GONG P, WANG L. Object-based analysis and change detection of major wetland cover types and their classification uncertainty during the low water period at Poyang Lake, China[J]. Remote Sensing of Environment, 2011,115(12):3220-36. |
| [6] |
GABRIELSEN C G, MURPHY M A AND EVANS J S. Using a multiscale, probabilistic approach to identify spatial-temporal wetland gradients[J]. Remote Sensing of Environment, 2016. DOI: 10.1016/j.rse.2016.07.034.
doi: 10.1016/j.rse.2019.05.008 pmid: 31359890 |
| [7] | TAN Z, JIANG J. Spatial-Temporal Dynamics of wetland vegetation related to water level fluctuations in Poyang Lake, China[J]. Water, 2016,8(9):397. |
| [8] | HENRY D A W, AMENT J M, CUMMING G S. Exploring the environmental drivers of waterfowl movement in arid landscapes using first-passage time analysis[J]. Movement Ecology, 2016,4(1):4-8. |
| [9] | LI C, YANG Y, WANG Z, et al. The relationship between seasonal water level fluctuation and habitat availability for wintering waterbirds at Shengjin Lake, China[J]. Bird Conservation International, 2018. DOI: 10.1017/S095927091800 |
| 0035. | |
| [10] | HEBBLEWHITE M, HAYDON D T. Distinguishing technology from biology: a critical review of the use of GPS telemetry data in ecology. Philosophical Transactions of the Royal Society of London[J]. Series B. Biological Sciences, 2010,365(1550):2303. |
| [11] | KUENZER C, OTTINGER M, WEGMANN M, et al. Earth observation satellite sensors for biodiversity monitoring: potentials and bottlenecks[J]. International Journal of Remote Sensing, 2014,35(18):6599-647. |
| [12] |
DRONOVA I, GONG P, WANG L, et al. Mapping dynamic cover types in a large seasonally flooded wetland using extended principal component analysis and object-based classification[J]. Remote Sensing of Environment, 2015. DOI: 10.1016/j.rse.2014.10.027.
pmid: 31359890 |
| [13] | GALLANT A L. The challenges of remote monitoring of wetlands[J]. Remote Sensing, 2015,7(8):10938-10950. |
| [14] | LI F, WU J, HARRIS J, et al. Number and distribution of cranes wintering at Poyang Lake, China during 2011-2012[J]. Chinese Birds, 2012,3(3):180-190. |
| [15] | KAYS R, CROFOOT M C, JETZ W, et al. Terrestrial animal tracking as an eye on life and planet[J]. Science, 2015,348(6240):2478. |
| [16] | REMELGADO R, LEUTNER B, SAFI K, et al. Linking animal movement and remote Sensing-mapping resource suitability from a remote sensing perspective[J]. Remote Sensing in Ecology and Conservation, 2017. DOI: 10.1002/rse2.70. |
| [17] | WILMERS C C, NICKEL B, BRYCE C M, et al. The golden age of bio-logging: how animal-borne sensors are advancing the frontiers of ecology[J]. Ecology, 2015,96(7):1741-1753. |
| [18] | European Space Agency. European Copernicus Programe 2018[EB/OL].[2020-10-03]. http://www.ec.europa.eu/growth/sectors/space/copernicus_en. |
| [19] | QI S, BROWN D G, TIAN Q, et al. Inundation extent and flood frequency mapping using LANDSAT imagery and digital elevation models[J]. GIScience and Remote Sensing, 2009,46(1):101-127. |
| [20] | YÉSOU H, HUBER C, LAI X, et al. 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[J]. Lakes and Reservoirs: Research and Management, 2011,16(3):231-47. |
| [21] | WANG X, FOX A D, CONG P, et al. Food constraints explain the restricted distribution of wintering Lesser White-fronted Geese Anser erythropus in China[J]. IBIS, 2013,155(3):576-592. |
| [22] | DRONOVA I, BEISSINGER S R, J. BURNHAM J W, et al. Landscape-level associations of wintering waterbird diversity and abundance from remotely sensed wetland characteristics of Poyang Lake[J]. Remote Sensing, 2016,8(6):1-22. |
| [23] |
XIA S, LIU Y, WANG Y, et al. Wintering waterbirds in a large river floodplain: hydrological connectivity is the key for reconciling development and conservation[J]. Science of the Total Environment, 2016. DOI: 10.1016/j.scitotenv.2016.08.147.
doi: 10.1080/00139157.1995.9930945 pmid: 12320385 |
| [24] |
WANG W, FRASER J D, CHEN J. Distribution and long-term population trends of wintering waterbirds in Poyang Lake, China[J]. Wetlands, 2017. DOI: 10.1007/s13157-017-0981-6.
doi: 10.1007/s13157-015-0632-8 pmid: 26074657 |
| [25] |
YU H, WANG X, CAO L, et al. Are declining populations of wild geese in China ‘prisoners’ of their natural habitats?[J] Current Biology, 2017,27(10):R376-R377.
doi: 10.1016/j.cub.2017.04.037 pmid: 28535385 |
| [26] | YE X, XU C Y, ZHANG Q, et al. Quantifying the human induced water level decline of China’s largest freshwater lake from the changing underlying surface in the lake region[J]. Water Resources Management, 2018,32(4):1467-1482. |
| [27] | ZHANG W, LI X, YU L, et al. Multi-scale habitat selection by two declining East Asian waterfowl species at their core spring stopover area[J]. Ecological Indicators, 2018,87:127-135. |
| [28] | BARTER M, CAO L, CHEN L, et al. Results of a survey for waterbirds in the lower Yangtze floodplain, China, in January-February 2004[J]. Forktail, 2005,21:1-7. |
| [29] |
FOX A D, LEI C, ZHANG Y, et al. Declines in the tuber-feeding waterbird guild at Shengjin Lake National Nature Reserve-a barometer of submerged macrophyte collapse[J]. Aquatic Conservation, 2010. DOI: 10.1002/aqc.1154.
doi: 10.1002/aqc.1248 pmid: 25505830 |
| [30] | CAO L, BARTER M, LEI G. New Anatidae population estimates for eastern China: implications for flyway population sizes[J]. Biological Conservation, 2008,141(9):2301-2309. |
| [31] | CAO L, ZHANG J, BARTER M, et al. Anatidae in eastern China during the non-breeding season: geographical distributions and protection status[J]. Biological Conservation, 2010,143(3):650-659. |
| [32] | WANG Y, JIA Y, GUAN L, et al. Optimising hydrological conditions to sustain wintering waterbird populations in Poyang Lake National Natural Reserve: Implications for dam operations[J]. Freshwater Biology, 2013,58(11):2366-2379. |
| [33] | XIA S, WANG Y, LEI G, et al. Restriction of herbivorous waterbird distributions in the middle and lower Yangtze River floodplain in view of hydrological isolation[J]. Wetlands, 2017,37(1):79-88. |
| [34] |
AHARON-ROTMAN Y, MCEVOY J, ZHENG Z, et al. Water level affects availability of optimal feeding habitats for threatened migratory waterbirds[J]. Ecology and Evolution, 2017, DOI: 10.1002/ece3.3566.
doi: 10.1002/ece3.7063 pmid: 33437440 |
| [35] | BARZEN J, ENGELS M, BURNHAM J, et al. 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[J]. Baraboo, Wisconsin: International Crane Foundation, 2009: 2-54. |
| [36] | Construction Office of Poyang Lake Water Control Project of Jiangxi Province. Keep the lake water clear-introduction of Poyang Lake Water Control Project[J]. Jiangxi Hydraulic Science and Technology, 2013 39(2):83-91. |
| [37] | TANG X, LI H, XU X, et al. Changing land use and its impact on the habitat suitability for wintering Anseriformes in China’s Poyang Lake region[J]. Science of the Total Environment, 2016,557:296-306. |
| [38] |
JIA Y, LEI G, YU X. Water regulation: a sword of Damocles for migratory waterbirds in China?[J] Science China Life Sciences, 2017a,60(5):548-50.
doi: 10.1007/s11427-016-0277-6 pmid: 28434132 |
| [39] | MEINE C D, ARCHIBALD G W. The cranes: status survey and conservation action plan[M]. IUCN, 1996. |
| [40] |
JIA Y, ZHANG Y, LEI J, et al. Activity patterns of four cranes in Poyang Lake, China: indication of habitat naturalness[J]. Wetlands, 2017. DOI: 10.1007/s13157-017-0911-7.
doi: 10.1007/s13157-015-0632-8 pmid: 26074657 |
| [41] | WASSON K, WOOLFOLK A, FRESQUEZ C. Ecotones as indicators of changing environmental conditions: rapid migration of salt marsh-upland boundaries[J]. Estuaries and Coasts, 2013,36(3):654-664. |
| [42] | HARRIS J, MIRANDE C. A global overview of cranes: status, threats and conservation priorities[J]. Chinese Birds, 2013,4(3):189-209. |
| [43] | GSTAIGER V, HUTH J, GEBHARDT S, et al. Multi-sensoral and automated derivation of inundated areas using TerraSAR-X and ENVISAT ASAR data[J]. International journal of remote sensing, 2012. 33(22):7291-304. |
| [44] | KUENZER C, GUO H, HUTH J, et al. Flood mapping and flood dynamics of the Mekong Delta: ENVISAT-ASAR-WSM based time series analyses[J]. Remote Sensing, 2013,5(2):687-715. |
| [45] | MARTINIS S, KUENZER C, WENDLEDER A, et al. Comparing four operational SAR-based water and flood detection approaches[J]. International Journal of Remote Sensing, 2015,36(13):3519-3543. |
| [46] |
ZHANG L, YIN J, JIANG Y, et al. Relationship between the hydrological conditions and the distribution of vegetation communities within the Poyang Lake National Nature Reserve, China[J]. Ecological Informatics, 2012. DOI: 10.1016/j.ecoinf.2012.05.006.
doi: 10.1016/j.ecoinf.2011.04.002 pmid: 32362804 |
| [47] | DENG F, WANG X, CAI X, et al. Analysis of the relationship between inundation frequency and wetland vegetation in Dongting Lake using remote sensing data[J]. Ecohydrology, 2014,7(2):717-26. |
| [48] | BURNHAM J W. Multi-scale and anthropogenic factors influencing endangered waterbird ecology wintering at two Chinese wetlands[M]. Wisconsin: University of Wisconsin-Madison, 2017. |
| [49] | R Core Team R. A language and environment for statistical computing.R Foundation for Statistical Computing, Vienna, Austria[EB/OL]. [2017-10-01]. https://www.R-project.org/. |
| [50] | QGIS Development Team. QGIS Geographic Information System. Open Source Geospatial Foundation Project[EB/OL].[2018-12-11]. http://qgis.osgeo.org. |
| [51] | KINGSFORD R T, JENKINS K M, PORTER J L. Imposed hydrological stability on lakes in arid Australia and effects on waterbirds[J]. Ecology, 2004,85(9):2478-92. |
| [52] |
GUAN L, WEN L, FENG D, et al. Delayed flood recession in central Yangtze floodplains can cause significant food shortages for wintering geese: Results of Inundation Experiment[J]. Environmental Management, 2014,54(6):1331-41.
doi: 10.1007/s00267-014-0350-7 pmid: 25164981 |
| [53] | CHEN B, CUI P, XU H, et al. Assessing the suitability of habitat for wintering Siberian Cranes (Leucogeranus leucogeranus) at different water levels in Poyang Lake area, China[J]. Polish Journal of Ecology, 2016,64(1):84-97. |
| No related articles found! |
| Viewed | ||||||
|
Full text |
|
|||||
|
Abstract |
|
|||||
