南汇东滩围垦后湿地水鸟群落多样性变化及生境选择的研究
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摘要
围垦滩涂造地是缓解经济发展与土地短缺矛盾的一种传统手段。南汇东滩是上海市可持续促淤圈围的重点地域。围垦使众多自然滩涂转变成不同用途人工湿地。本文研究不同类型湿地容纳水鸟群落的差异及水鸟群落对栖息地的生境选择作用,研究结果如下:
两年度共记录水鸟95种,隶属于7目15科。鸻形目、雁形目和鹳形目分别占水鸟种类组成的52.64%、20%和16.84%。留鸟3种、夏候鸟15种、冬候鸟35种、旅鸟42种。优势种白骨顶、罗纹鸭和赤膀鸭分别占观察总数量的24.7%、14.6%和10%。国家一级重点保护鸟类东方白鹤,国家二级重点保护鸟类7种。南汇东滩是以鸻形目为主众多旅鸟的中途停歇地,以雁形目为主冬候鸟的重要栖息地。夏季该区域的繁殖鸟类主要是鹭科水鸟。黑脸琵鹭和罗纹鸭在南汇东滩的种群数量大于国际重要湿地1%的标准。
城市湖泊湿记录水鸟7目10科40种,雁形目种类最多。散养鱼塘记录水鸟7目15科77种,鸻形目种类最多。抛荒湿地记录水鸟6目11科59种,鸻形目水鸟种类最多。散养鱼塘的鸟类种类最多,抛荒湿地的鸟类种类次之,城市湖泊湿地的鸟类种类最少。散养鱼塘的鸻形目、雁形目和鹳形目鸟类均为三类湿地最多。抛荒湿地主要容纳鸻形目、雁形目和鹳形目的鸟类。城市湖泊湿地主要容纳雁形目和鹳形目鸟类,鸻形目鸟类极少见。
样方间总物种组成有差异。进一步比较,样方散养鱼塘1和抛荒湿地2与各样方间总种类组成均有差异。散养鱼塘1和抛荒湿地2的物种多样性最高,样方间鹳形目物种组成有差异。抛荒湿地2鹳形目物种最多。样方间雁形目鸟类组成有显著差异,散养鱼塘1容纳雁形目最多。样方间鸻形目组成有显著差异,鸻形目物种组成的特点是散养鱼塘1>散养鱼塘2>抛荒湿地2。两个城市湖泊湿地的鸻形目很少,而抛荒湿地1的鸻形目最少。6样方间总密度有差异。散养鱼塘1与抛荒湿地1之间总密度有差异。散养鱼塘1的水鸟密度最大,抛荒湿地1的水鸟密度最小。样方间鸊鸆目密度有差异,即抛荒湿地2和湖泊湿地2容纳更多的鹧鹧。雁形目主要分布在抛荒湿地2和城市湖泊湿地l。样方间鸻形目密度有差异,散养鱼塘2鸻形目密度最高。总体来看,散养鱼塘1的水鸟种类和密度高,抛荒鱼塘2次之,抛荒鱼塘1和城市湖泊湿地1的水鸟种类和密度较低。
分析两年度水鸟的丰富度,散养鱼塘1的水鸟丰富度最高,散养鱼塘2、抛荒湿地2的水鸟丰富度次之。城市湖泊湿地1的水鸟丰富度最低。即散养鱼塘的鸟类种类最多,每类水鸟数量相对均匀。城市湖泊湿地1的水鸟组成单一,主要为几种雁鸭类占近78%的比例。秋季抛荒湿地2水乌丰富度和均匀度最高,散养鱼塘2、散养鱼塘1次之。城市湖泊湿地2水鸟丰富度最低。抛荒湿地2由众多的鸻形目和鹳形目及雁形目鸟类组成。城市湖泊湿地2约74%数量的水鸟为白骨顶。冬季散养鱼塘1冬季水鸟丰富度最高,由众多的雁形目和鹳形目的鸟类等组成。城市湖泊湿地1与抛荒湿地1由一定的雁形目和鹳形目鸟类组成。城市湖泊湿地2和抛荒湿地2两样方70%多的水鸟数量比例是由白骨顶1种组成,丰富度最低。春季散养鱼塘1水鸟丰富度最高,抛荒湿地2次之。散养鱼塘1有较多的鸻形目和雁形目和鹳形目及鹧鹧和秧鸡水鸟停歇,抛荒湿地2有较多的秧鸡和一定量的鸻形目和鹳形目和鹏鹏。城市湖泊湿地1绝大多数水鸟数量为雁形目和少量鹏鹛,城市湖泊湿地2绝大多数为秧鸡科的鸟类和少量鹏鹧。
分析各湿地鸟类群落与生境因子之间的关系,两年度总的鸟类群落分为四个类群。其中第一和第二类群是雁鸭类秧鸡类,这两类群与深水面积、离海堤垂直距离、平均水位、人为干扰显著相关。第四类群和植被面积、浅水位面积和裸露光滩面积呈显著相关。冬季鸟类组成分为四个类群,第一、二类群分别代表城市湖泊湿地1和城市湖泊湿地2鸟类群落。第三类群代表散养鱼塘1和散养鱼塘2的鸟类,与植被盖度和植被面积显著相关。第四类群代表抛荒湿地1和抛荒湿地2鸟类,第四类群与浅水面积和光滩面积呈显著相关。迁徙季鸟类组成可分为四个类群,第一和第二类群分别代表城市湖泊湿地1和城市湖泊湿地2的鸟类群落,与平均水位、深水面积、人为干扰和离海堤距离显著相关。第三类群代表散养鱼塘1和抛荒湿地2的鸟类群落,与浅水位面积和光滩面积和植被面积显著相关。
两年度间堤外共记录鸻形目水鸟32种,春季22种,秋季24种。堤内记录鸻形目水鸟45种,其中春季34种,秋季31种。堤内鸻形目种类高于堤外。五样方间春季鸻形目密度差异显著。散养鱼塘1与其余四个样方鸻形目密度均有极显著差异。散养鱼塘1春季的鸻形目密度最高。散养鱼塘2和堤外滩涂2有显著差异。堤外滩涂2鸻形目密度大于散养鱼塘2。抛荒鱼塘2鸻形目密度与堤外两样方均无显著差异。五样方间秋季鸻形目密度差异显著。堤外滩涂1与其余4样方间鸻形目密度均有极显著差异。散养鱼塘2与其余四样方鸻形目密度均有极显著差异。散养鱼塘2秋季的鸻形目密度最小。
比较春秋季鸻形目种类和密度差异,春季秋季总体种类无显著差异,总密度有显著差异,散养鱼塘1、堤外滩涂1春季秋季密度有显著差异,散养鱼塘2、抛荒湿地2、堤外滩涂2春季秋季密度无显著差异。春季总密度大于秋季,散养鱼塘1春季密度大于秋季,而堤外滩涂1秋季密度大于春季。
本研究记录41种鸻形目水鸟。2005年度记录25种,1985年纪录23种。其中水雉、风头麦鸡等12种鸻形目在前两次研究中没记录到。黑腹滨鹬在3次研究中均为优势种。红颈滨鹬由优势种变为常见种。黑翅长脚鹬由少见种变为优势种。大滨鹬由优势种变为少见种。一些喜淡水鸻鹬类,如普通燕鸻、白腰草鹬、林鹬等种类仅在本次研究中被记录。对比本研究和1985年研究鸻形目的密度可知,该区域容纳鸻形目密度下降约40倍。围垦后堤内湿地容纳的鸻形目种类增加,密度急剧下降。该区域的鸻鹬类推测应是附近鸻形目鸟类觅食扩散至此。
依据研究结论,提出以下管理建议:(1)引水渠到抛荒湿地,减少土地早化的影响。割除抛荒湿地的植被。在春季调控水位,营造一定的浅水位和裸露光滩的面积。(2)改变鱼塘的作业方式,以保证冬季有足够水位的水域面积和春季有足够的浅滩面积,鱼塘管理者得到生态补偿。(3)改变城市湖泊湿地的混凝土边界为沙土质,变化水域的水位。(4)建议政府部门转变成农田和工业用地的速度,开发利用方式以大中型水产养殖塘为主。
Reclamation intertidal area is a traditional way to increase the land for agricultural and residential use, port construction and industrial estate. Nanhui Dongtan is one of the key reclamationsite in Yangtze River Delta due to rapid urbanization and economic growth. After reclamation, some of the natural wetlands turned to artificial wetlands, i.e., urban lake wetlands, extensive fish ponds, and abandoned wetlands. Which types of artificial wetlands will be better for waterbirds, and what are the major environmental factors affecting waterbird community composition? We carried out the study to answer these questions.
A total of95species corresponding to15families and7Orders were observed during census counts. It is mainly composed of Charadriiformes, Anseriformes and Ciconiiformes, which accounting for52.64%,20%and16.84%of all species, respectively. Transients (42species) and winter (35species) were dominant taxa, accounting for81%of all95waterbird species. However, residents (3species) and summer migrants (15species) were also observed. Coot Fulica atra, Falcated Duck Anas falcate and Gadwall Anas strepera were dominant species, accountingfor24.7%,14.6%and10%of all individuals recorded, respectively.Two species, Black-faced Spoonbill Platalea minor and Falcated Duck Anas falcata, meet the international conservation criterion of>1%of global population size, indicating that the Nanhui Dongtan was an important wintering site for Black-faced Spoonbill and Falcated Duck.
Of the95species recorded in the study area, most species were recorded in the extensive fish ponds (77species;81%of the total), followed by the abandoned wetlands (59species;62%), and least species in the urban lake wetlands (40species;42%). Meanwhile, the most species-rich families were Charadriiformes (in the extensive fish ponds and abandoned wetlands) and Anseriformes(in the urban lake wetlands).
Waterbird species numbers and densities exhibited significant differences in the six wetlands. Specifically, waterbird species numbers and their densities in the extensive fish ponds (followed by the'abandoned wetland2') were higher than other wetlands. Meanwhile, Anseriformes and Charadriiformes were dominated in the extensive fish ponds1(the species numbers of these two families) and2(their densities). Ciconiiformes were dominated in the'abandoned wetland2'indicating by the higher species numbers of Ciconiiformes in the 'abandoned wetland2'than other wetlands.
Differences in the abundance and richness of waterbirds in six wetlands were simulated with the dominance species accumulation curve in PRIMER5.0version. Results showed that waterbird abundance and richness were higher in the'extensive fish pond1'(followed by the'extensive fish pond2'and the 'abandoned wetland2') than other wetlands. The urban lake wetlands could attract few waterbird species indicating by the lower abundance and richness of waterbirds in the'urban lake wetland1'than other wetlands. Waterbird abundance and richness were higher in the 'abandoned wetland2'(followed by the extensive fish pond) than other wetlands in autumn, and were higher in the 'extensive fish pond1'(followed by the'extensive fish pond2') in winter.
Impacts of environmental factors on waterbird community composition in three types of wetlands were analyzed with Non-metric Multi-dimensional Scaling (NMDS) ordination. Resulted represented that community compositionand of Anseriformes were positively correlated with deeper water area, anthropogenic disturbance, distance to the seawall, and mean water level, however, Charadriiformes were positively correlated with shallow water area and bare muddy area.
More Charadriiformes species were observed in artificial wetlands. However, Charadriiformes density was higher in the'extensive fish pond1'than those in other natural tidal flats, but their densities in the'natural tidal flat2'was higher than that in the'extensive fish pond2'. Charadriiformes density in the'extensive fish pond1'was higher than those in the natural tidal flats in spring, but the density in the'natural tidal flat1'was higher than those in artificial wetlands in autumn. However, the density in the'natural tidal flat2'was higher than that in the'extensive fish pond2'both in spring and autumn. Habitat preference of Charadriiformes showed seasonal difference: their density was higher in the'extensive fish pond1'in spring than that in autumn, however, the density in the 'natural tidal flat1'was higher in autumn than that in spring.
Compared to two provious waterbird records, in our study, more Charadriiformes species were observed in the artificial wetlands, however, their densities sharply decreased. Dunlin was the dominant species in all waterbird surveys, including our study. In the provious surveys, Rufous-necked Stint and Great Knot Calidris tenuirostris were dominant species, and Black-winged Stilt was rare species. However, in our study, their population status changed to common, rare and dominant species, respectively.
Recommendations are as follows:1) To re-introduce seawater to the abandoned wetlands and control the water level to maintain an adequate area of shallow water and bare mudflats for shorebirds.2) To dynamically control the water depth in the extensive fish pond, so as to provide stable habitats for wintering ducks and diving birds (deep water) in winter and migrant shorebirds (shallow water and bare mudflats) in spring and autumn.3) Convert concrete banks into natural sandy soils with reed marshes in the lake area for the purpose of increasing habitat diversity required for waterbird roosting;and.4) Slow down the speed of the reclaimed land into farmland and industrial land. Land use plans dealing with reclaimed regions convert more land into paddy fields and ponds and replace dry land areas.
两年度共记录水鸟95种,隶属于7目15科。鸻形目、雁形目和鹳形目分别占水鸟种类组成的52.64%、20%和16.84%。留鸟3种、夏候鸟15种、冬候鸟35种、旅鸟42种。优势种白骨顶、罗纹鸭和赤膀鸭分别占观察总数量的24.7%、14.6%和10%。国家一级重点保护鸟类东方白鹤,国家二级重点保护鸟类7种。南汇东滩是以鸻形目为主众多旅鸟的中途停歇地,以雁形目为主冬候鸟的重要栖息地。夏季该区域的繁殖鸟类主要是鹭科水鸟。黑脸琵鹭和罗纹鸭在南汇东滩的种群数量大于国际重要湿地1%的标准。
城市湖泊湿记录水鸟7目10科40种,雁形目种类最多。散养鱼塘记录水鸟7目15科77种,鸻形目种类最多。抛荒湿地记录水鸟6目11科59种,鸻形目水鸟种类最多。散养鱼塘的鸟类种类最多,抛荒湿地的鸟类种类次之,城市湖泊湿地的鸟类种类最少。散养鱼塘的鸻形目、雁形目和鹳形目鸟类均为三类湿地最多。抛荒湿地主要容纳鸻形目、雁形目和鹳形目的鸟类。城市湖泊湿地主要容纳雁形目和鹳形目鸟类,鸻形目鸟类极少见。
样方间总物种组成有差异。进一步比较,样方散养鱼塘1和抛荒湿地2与各样方间总种类组成均有差异。散养鱼塘1和抛荒湿地2的物种多样性最高,样方间鹳形目物种组成有差异。抛荒湿地2鹳形目物种最多。样方间雁形目鸟类组成有显著差异,散养鱼塘1容纳雁形目最多。样方间鸻形目组成有显著差异,鸻形目物种组成的特点是散养鱼塘1>散养鱼塘2>抛荒湿地2。两个城市湖泊湿地的鸻形目很少,而抛荒湿地1的鸻形目最少。6样方间总密度有差异。散养鱼塘1与抛荒湿地1之间总密度有差异。散养鱼塘1的水鸟密度最大,抛荒湿地1的水鸟密度最小。样方间鸊鸆目密度有差异,即抛荒湿地2和湖泊湿地2容纳更多的鹧鹧。雁形目主要分布在抛荒湿地2和城市湖泊湿地l。样方间鸻形目密度有差异,散养鱼塘2鸻形目密度最高。总体来看,散养鱼塘1的水鸟种类和密度高,抛荒鱼塘2次之,抛荒鱼塘1和城市湖泊湿地1的水鸟种类和密度较低。
分析两年度水鸟的丰富度,散养鱼塘1的水鸟丰富度最高,散养鱼塘2、抛荒湿地2的水鸟丰富度次之。城市湖泊湿地1的水鸟丰富度最低。即散养鱼塘的鸟类种类最多,每类水鸟数量相对均匀。城市湖泊湿地1的水鸟组成单一,主要为几种雁鸭类占近78%的比例。秋季抛荒湿地2水乌丰富度和均匀度最高,散养鱼塘2、散养鱼塘1次之。城市湖泊湿地2水鸟丰富度最低。抛荒湿地2由众多的鸻形目和鹳形目及雁形目鸟类组成。城市湖泊湿地2约74%数量的水鸟为白骨顶。冬季散养鱼塘1冬季水鸟丰富度最高,由众多的雁形目和鹳形目的鸟类等组成。城市湖泊湿地1与抛荒湿地1由一定的雁形目和鹳形目鸟类组成。城市湖泊湿地2和抛荒湿地2两样方70%多的水鸟数量比例是由白骨顶1种组成,丰富度最低。春季散养鱼塘1水鸟丰富度最高,抛荒湿地2次之。散养鱼塘1有较多的鸻形目和雁形目和鹳形目及鹧鹧和秧鸡水鸟停歇,抛荒湿地2有较多的秧鸡和一定量的鸻形目和鹳形目和鹏鹏。城市湖泊湿地1绝大多数水鸟数量为雁形目和少量鹏鹛,城市湖泊湿地2绝大多数为秧鸡科的鸟类和少量鹏鹧。
分析各湿地鸟类群落与生境因子之间的关系,两年度总的鸟类群落分为四个类群。其中第一和第二类群是雁鸭类秧鸡类,这两类群与深水面积、离海堤垂直距离、平均水位、人为干扰显著相关。第四类群和植被面积、浅水位面积和裸露光滩面积呈显著相关。冬季鸟类组成分为四个类群,第一、二类群分别代表城市湖泊湿地1和城市湖泊湿地2鸟类群落。第三类群代表散养鱼塘1和散养鱼塘2的鸟类,与植被盖度和植被面积显著相关。第四类群代表抛荒湿地1和抛荒湿地2鸟类,第四类群与浅水面积和光滩面积呈显著相关。迁徙季鸟类组成可分为四个类群,第一和第二类群分别代表城市湖泊湿地1和城市湖泊湿地2的鸟类群落,与平均水位、深水面积、人为干扰和离海堤距离显著相关。第三类群代表散养鱼塘1和抛荒湿地2的鸟类群落,与浅水位面积和光滩面积和植被面积显著相关。
两年度间堤外共记录鸻形目水鸟32种,春季22种,秋季24种。堤内记录鸻形目水鸟45种,其中春季34种,秋季31种。堤内鸻形目种类高于堤外。五样方间春季鸻形目密度差异显著。散养鱼塘1与其余四个样方鸻形目密度均有极显著差异。散养鱼塘1春季的鸻形目密度最高。散养鱼塘2和堤外滩涂2有显著差异。堤外滩涂2鸻形目密度大于散养鱼塘2。抛荒鱼塘2鸻形目密度与堤外两样方均无显著差异。五样方间秋季鸻形目密度差异显著。堤外滩涂1与其余4样方间鸻形目密度均有极显著差异。散养鱼塘2与其余四样方鸻形目密度均有极显著差异。散养鱼塘2秋季的鸻形目密度最小。
比较春秋季鸻形目种类和密度差异,春季秋季总体种类无显著差异,总密度有显著差异,散养鱼塘1、堤外滩涂1春季秋季密度有显著差异,散养鱼塘2、抛荒湿地2、堤外滩涂2春季秋季密度无显著差异。春季总密度大于秋季,散养鱼塘1春季密度大于秋季,而堤外滩涂1秋季密度大于春季。
本研究记录41种鸻形目水鸟。2005年度记录25种,1985年纪录23种。其中水雉、风头麦鸡等12种鸻形目在前两次研究中没记录到。黑腹滨鹬在3次研究中均为优势种。红颈滨鹬由优势种变为常见种。黑翅长脚鹬由少见种变为优势种。大滨鹬由优势种变为少见种。一些喜淡水鸻鹬类,如普通燕鸻、白腰草鹬、林鹬等种类仅在本次研究中被记录。对比本研究和1985年研究鸻形目的密度可知,该区域容纳鸻形目密度下降约40倍。围垦后堤内湿地容纳的鸻形目种类增加,密度急剧下降。该区域的鸻鹬类推测应是附近鸻形目鸟类觅食扩散至此。
依据研究结论,提出以下管理建议:(1)引水渠到抛荒湿地,减少土地早化的影响。割除抛荒湿地的植被。在春季调控水位,营造一定的浅水位和裸露光滩的面积。(2)改变鱼塘的作业方式,以保证冬季有足够水位的水域面积和春季有足够的浅滩面积,鱼塘管理者得到生态补偿。(3)改变城市湖泊湿地的混凝土边界为沙土质,变化水域的水位。(4)建议政府部门转变成农田和工业用地的速度,开发利用方式以大中型水产养殖塘为主。
Reclamation intertidal area is a traditional way to increase the land for agricultural and residential use, port construction and industrial estate. Nanhui Dongtan is one of the key reclamationsite in Yangtze River Delta due to rapid urbanization and economic growth. After reclamation, some of the natural wetlands turned to artificial wetlands, i.e., urban lake wetlands, extensive fish ponds, and abandoned wetlands. Which types of artificial wetlands will be better for waterbirds, and what are the major environmental factors affecting waterbird community composition? We carried out the study to answer these questions.
A total of95species corresponding to15families and7Orders were observed during census counts. It is mainly composed of Charadriiformes, Anseriformes and Ciconiiformes, which accounting for52.64%,20%and16.84%of all species, respectively. Transients (42species) and winter (35species) were dominant taxa, accounting for81%of all95waterbird species. However, residents (3species) and summer migrants (15species) were also observed. Coot Fulica atra, Falcated Duck Anas falcate and Gadwall Anas strepera were dominant species, accountingfor24.7%,14.6%and10%of all individuals recorded, respectively.Two species, Black-faced Spoonbill Platalea minor and Falcated Duck Anas falcata, meet the international conservation criterion of>1%of global population size, indicating that the Nanhui Dongtan was an important wintering site for Black-faced Spoonbill and Falcated Duck.
Of the95species recorded in the study area, most species were recorded in the extensive fish ponds (77species;81%of the total), followed by the abandoned wetlands (59species;62%), and least species in the urban lake wetlands (40species;42%). Meanwhile, the most species-rich families were Charadriiformes (in the extensive fish ponds and abandoned wetlands) and Anseriformes(in the urban lake wetlands).
Waterbird species numbers and densities exhibited significant differences in the six wetlands. Specifically, waterbird species numbers and their densities in the extensive fish ponds (followed by the'abandoned wetland2') were higher than other wetlands. Meanwhile, Anseriformes and Charadriiformes were dominated in the extensive fish ponds1(the species numbers of these two families) and2(their densities). Ciconiiformes were dominated in the'abandoned wetland2'indicating by the higher species numbers of Ciconiiformes in the 'abandoned wetland2'than other wetlands.
Differences in the abundance and richness of waterbirds in six wetlands were simulated with the dominance species accumulation curve in PRIMER5.0version. Results showed that waterbird abundance and richness were higher in the'extensive fish pond1'(followed by the'extensive fish pond2'and the 'abandoned wetland2') than other wetlands. The urban lake wetlands could attract few waterbird species indicating by the lower abundance and richness of waterbirds in the'urban lake wetland1'than other wetlands. Waterbird abundance and richness were higher in the 'abandoned wetland2'(followed by the extensive fish pond) than other wetlands in autumn, and were higher in the 'extensive fish pond1'(followed by the'extensive fish pond2') in winter.
Impacts of environmental factors on waterbird community composition in three types of wetlands were analyzed with Non-metric Multi-dimensional Scaling (NMDS) ordination. Resulted represented that community compositionand of Anseriformes were positively correlated with deeper water area, anthropogenic disturbance, distance to the seawall, and mean water level, however, Charadriiformes were positively correlated with shallow water area and bare muddy area.
More Charadriiformes species were observed in artificial wetlands. However, Charadriiformes density was higher in the'extensive fish pond1'than those in other natural tidal flats, but their densities in the'natural tidal flat2'was higher than that in the'extensive fish pond2'. Charadriiformes density in the'extensive fish pond1'was higher than those in the natural tidal flats in spring, but the density in the'natural tidal flat1'was higher than those in artificial wetlands in autumn. However, the density in the'natural tidal flat2'was higher than that in the'extensive fish pond2'both in spring and autumn. Habitat preference of Charadriiformes showed seasonal difference: their density was higher in the'extensive fish pond1'in spring than that in autumn, however, the density in the 'natural tidal flat1'was higher in autumn than that in spring.
Compared to two provious waterbird records, in our study, more Charadriiformes species were observed in the artificial wetlands, however, their densities sharply decreased. Dunlin was the dominant species in all waterbird surveys, including our study. In the provious surveys, Rufous-necked Stint and Great Knot Calidris tenuirostris were dominant species, and Black-winged Stilt was rare species. However, in our study, their population status changed to common, rare and dominant species, respectively.
Recommendations are as follows:1) To re-introduce seawater to the abandoned wetlands and control the water level to maintain an adequate area of shallow water and bare mudflats for shorebirds.2) To dynamically control the water depth in the extensive fish pond, so as to provide stable habitats for wintering ducks and diving birds (deep water) in winter and migrant shorebirds (shallow water and bare mudflats) in spring and autumn.3) Convert concrete banks into natural sandy soils with reed marshes in the lake area for the purpose of increasing habitat diversity required for waterbird roosting;and.4) Slow down the speed of the reclaimed land into farmland and industrial land. Land use plans dealing with reclaimed regions convert more land into paddy fields and ponds and replace dry land areas.
引文
蔡友铭,袁晓.2008.上海水鸟.上海:科学技术出版社.
陈君,张长宽,林康,丁贤荣,袁汝华.2011江苏沿海滩涂资源开发利用研究39(2):213-219.
陈吉余.2000.中国围海工程.北京:中国水利水电出版社.
陈水华,丁平,郑光美,诸葛阳.2000.城市化对杭州市湿地水鸟群落的影响研究.动物学研究21(4):279-285.
陈炜,宋卓彦,国辉,王昊,魏婷,李楠,张开翼,杨书香,戴开甲,
潘祖亭.2007.武汉市城市湖泊与城市湿地冬季鸟类资源及生境分析.林业调查规划32(5):46-50.
崇明东滩国家级鸟类自然保护区管理处.2009.上海崇明东滩鸟类国家级自然保护区年度资源监测报告.
崇明东滩国家级鸟类自然保护区管理处.2010.上海崇明东滩鸟类国家级自然保护区年度资源监测报告.
崇明东滩国家级鸟类自然保护区管理处.2011.上海崇明东滩鸟类国家级自然保护区年度资源监测报告.
丁平,鲍毅新,诸葛阳.1994.萧山围垦农区小型兽类种群动态的研究.兽类学报14(1):35-42.
董哲任.2003.荷兰围垦区生态重建的启示.中国水利11(A):45-49.
付红波,李取生,骆承程,陈连运.2009.珠三角滩涂围垦农田土壤和农作物重金属污染.农业环境科学学报28(6):1142-1146.
高伟,陆健健.2008.长江口潮滩湿地鸟类适栖地营造实验及短期效应.生态学报28(5):2080-2089.
巩晋楠,王开运,张超,马永.2009.围垦滩涂湿地旱生耐盐植物的入侵和影响.应用生态学报22(1):33-39.
郭文利,袁晓,裴恩乐,夏述忠,严晶晶,王天厚.2010.上海南汇东滩湿地鸟类资源调查四川动物29(5):597-604.
何玮,薛俊增,方伟,吴惠仙.2010.滩涂围垦湖泊滴水湖水质现状分析.科技通报26(2):569-578.
衡楠楠,牛俊英,张斌,袁晓,王天厚.2011.鸻形目鸟类对南汇滨海滩涂的生境选择.复旦学报50(3):296-301.
胡知渊,李欢欢,鲍毅新,葛宝明.2008.灵昆岛围垦区内外滩涂大型底栖动物生物多样性.生态学报25(4):1498-1507.
华宁,马志军,马强,宋国贤,汤臣栋,李博,陈家宽.2009.冬季水塘对崇明东滩水产养殖塘的利用.生态学报29(12):6342-6350.
黄日富.2006.荷兰围海拦海工程考察的启示.南方国土资源(6):18-21.
姜珊,葛振鸣,裴恩乐.2007.崇明东滩堤内次生人工湿地冬季水鸟的夜间行为.动物学杂志42(6):21-27.
敬凯,唐仕敏,陈家宽,马志军.2002.崇明东滩白头鹤的越冬生态.动物学杂志37(6):29-34.
李九发,万新宁,陈小华,徐海根.2003.上海滩涂后备土地资源及其可持续开发途径.长江流域资源与环境12(1):17-21.
李九发,戴志军,应铭.2007.上海市沿海滩涂土地资源围圈与潮滩发育演变分析.自然资源学报22(3):361-371.
李群,闫双喜,阎亮,黄锦辉,赵勇.2006.人类活动对黄河湿地鸟类生态栖息地影响—以三门峡黄河天鹅观赏园建设为例.河南科学24(5):749-752.
李茂田,陈中原,李刚.2004.从长江口南汇东滩冲淤变化探讨合理选择促淤造陆边界.长江流域资源与环境13(4):365-369.
李楠楠,顾尔康,张建新.2011.围海造地的国际比较分析及启示.时代金融10:168-169183.
李世宗,刘震.2012.昆明翠湖越冬红嘴鸥数量变化及投食量调查分析.野生动物33(3):146-148.
刘杰,陈吉余,陈沈良.2007.长江口南汇东滩滩地地貌演变分析.泥沙研究(6):47-52.
路珊,刘晶,邹业爱,牛俊英,倪华明,王天厚.2013.上海浦东东滩滩涂围垦后农业种植养殖区对春秋迁徙水鸟群落的影响.复旦学报.(接收).
罗莎,胡鸿兴,成水平,贺锋,吴振斌.2010.武汉市金银湖水鸟多样性及其与水环境关系的初步研究.长江流域资源与环境19(6):671-675.
罗章仁.1997.香港填海造地及其影响研究.地理学报52(3):220-227.
马长安,徐霖林,田伟,吕巍巍,赵云龙.2012.围垦对南汇东滩湿地大型底栖动物的影响.生态学报32(4):1007-1015.
马金妍,石冰,王开运,巩晋楠,侯颖.2009.崇明东滩湿地围垦区芦苇生物量影响因素初探.生态与农村环境学报25(4):100-104.
马志军.2002.崇明东滩鸟类及其栖息地研究.上海:复旦大学博士后学位论文.
孟伟庆,王秀明,李洪远,丁晓.2012.天津滨海新区围海造地的生态环境影响分析.海洋环境科学31(1):83-87.
牛俊英,衡楠楠,张斌,袁晓,王天厚.2011.上海市南汇东滩围垦后海堤带湿地冬春季水鸟生境选择.动物学研究32(6):624-630.
欧冬妮,刘敏,侯立军,刘巧梅,张斌亮,杨毅,2002.围垦对东海农场沉积物无机氮分布的影响.海洋环境科学21(5):18-22.
潘少明,施晓冬,王建业,Peter Tsnner Lai Shing leong.2000.围海造地工程对香港维多利亚港现代沉积作用的影响.沉积学报18(1):22-28.
慎佳泓,胡仁勇,李铭红,丁平,于明坚,丁炳扬.2006.杭州湾和乐清湾滩涂围垦对湿地植物多样性的影响.浙江大学学报:理学版33(5):324-328.
石冰,马金妍,王开运,巩晋楠,张超,刘为华.2010.崇明东滩围垦芦苇生长、繁殖和生物量分配对大气温度升高的响应,长江流域资源与环境19(4):383-388.
孙永光.2011.长江口不同年限围垦区景观结构与功能分异.上海:华东师大博士论文.
万树文,钦佩,朱洪光等.2000.盐城自然保护区两种人工湿地模式评价.生态学报20(5):759-765.
王强,吕宪国.2007.鸟类在湿地生态系统监测与评价中的作用5(3):274-281.
王天厚,钱国桢.1988.长江口杭州湾鸻形目鸟类.上海:华东师大出版社.
吴兆录,郑曼丽,潘邦珍,赵雪冰,王紫江,杨明.2008.红嘴鸥在昆明城区的停留时间及其影响因素.四川动物27(3):351-355.
香港观鸟会有限公司.2009.中国沿海水鸟同步调查报告.
香港观鸟会有限公司.2011.中国沿海水鸟同步调查报告.
谢寅万.2011.论围海造地的法律规制.法制与社会1:61-63.
徐俊杰,陈勇.2011.基于RS与GIS的南汇东滩围垦研究.上海国土资源32(3):18-22.
杨华.2013.香港填海造地的法律实践及其借鉴意义.法学1:44-51.
杨晓婷,牛俊英,罗祖奎,张美,汤臣栋,王天厚.2013.崇明东滩抛荒鱼塘的自然演替过程对水鸟群落的影响.生态学报33(13):4050-4058.
虞快.1991.崇明岛东部滩涂的越冬水禽及其保护.野生动物2:15-18
袁兴中,陆健健.2001.围垦对长江口南岸底栖动物群落结构及多样性的影响.生态学报21(10):1642-1647.
张斌,袁晓,裴恩乐,牛俊英,衡楠楠,王天厚.2011.长江口滩涂围垦后水鸟群落结构的变化—以南汇东滩为例.生态学报(16):4599-4608.
张国梁,梁伟,楚国忠.2006.海南黑脸琵鹭的越冬行为分析.生物多样性14(4):352-358.
郑光美.2011.中国鸟类分类与分布名录.北京:科学出版社.
郑作新.2002.中国鸟类系统检索(第三版).北京:科学出版社.
仲阳康,周慧,施文,周晓,周立晨,王天厚.2006.上海滩涂春季鸻形
目鸟类群落及围垦后生境选择.长江流域资源与环境.15(3):378-383.
周怡生.2000.为上海城乡发展提供建设用地-南汇东滩滩涂促淤围垦工程简介.上海建设科技1:23-24.
中国国家林业局.2000.中国湿地保护行为计划.
朱小敖.2001.围海造地是实现耕地总量动态平衡的主要途径.浙江水利科技3:76-77.
Acosta, M., Mugica, L., Mancina, C., Ruiz, X.1996. Resource partitioning between glossy and white ibises in a rice field system in south-central Cuba. Colonial Waterbirds 19:65-72.
Acuna, R., Contreras, F., Kerekes, J.1994. Aquatic bird densities in two coastal lagoon systems in Chiapas State, Mexico, a preliminary assessment. Hydrobiologia 279(280):101-106.
Aldrich, J. W., Coffin, R. W.1980. Breeding bird populations from forest to suburbia after thirty-seven years. American Birds 34:3-7.
Atkinson, P. W., Fuller, R. J., Vickery, J. A., Conway, G. J., Tallowin, J.R.B., Smith, R.E.N., Haysom, K.A., Ings, T. C., Asteraki, E. J., Brown, V.K.2004. Influence of agricultural management, sward structure and food resources on grassland field use by birds in lowland England. Journal of Applied Ecology 42:932-942.
Auman, H. J., Meathrel, C. E., Richardson, A.2008. Supersize Me:does anthropogenic food change the body condition of Silver Gulls? A comparison between urbanized and remote, non-urbanized areas Waterbirds 31:122-126.
Badsha, K.S., GoldsPink, C.R.,1988. Heavy metal levels in threes species of fish in Tjeukemeer, a Dutch Polder Iake.ChemosPhere 17:459-463.
Bamford, M., Watkins, D., Bancroft, W., Tischler, G., Wahl, J.2008. Migratory Shorebirds of the East Asian-Australasian flyway; population estimates and an internationally important sites.Canberra, Australia:Wetlands International-Oceania.
Bancroft, C.T., Strong, A. M., Sawicki, R. J., Hoffman, W, Jewell, S. D.,1994. Relationships among wading bird foraging patterns, colony locations, and hydrology in the Everglades. In:Davis SM, Ogden JC (eds) Everglades:The ecosystem and its restoration.St. Lucie, Delray Beach:615-657.
Bancroft, G.T., Gawlik, D.E., Rutchey, K.,2002. Distribution of wading birds relative to vegetation and water depths in the Northern Everglades of Florida, USA. Waterbirds 25:265-277.
Blair, R. B.1996. Land use and avian species diversity along an urban gradient. Ecological Applications 6:506-519.
Brouder, S.M., Hill, J.E.,1995. Winter flooding of ricelands provides waterfowl habitat. California. Agriculture 49:58-64.
Brown, M., Dinsmore, J. J.,1986. Implications of marsh size and isolation for marsh bird management. Journal of Wildlife Management 50:392-397.
Burton, N. H. K., Rehfisch, M. M., Clark, N. A., Dodd, S. G.2006. Impacts of sudden winter habitat loss on the body condition and survival of red shank Tringatotanus. Journal of Applied Ecology 43:464-473.
Byeong, M. M., Kim, J. H.1999. Plant Community Structure in Reclaimed Lands on the West Coast of Korea. Journal of Plant Biology 42:287-293.
Cam, E., Nichols, J. D., Suarez, A. V., Crooks, K. R., Morrison, S. A., Case, T. J. 2000. Arthropods in urban habitat fragments in southern California:area, age, and edge effects. Ecological Applications 10:1230-1248.
Catry,T., Alves, J. A., Andrade, J., Costa, H., Dias, M. P., Fernandes, P., Leal, A., Lourenco, P. M., Martins, R. C., Moniz, F., Pardal, S., Rocha, A., Santos, C. D., Encarnacao,V. Granadeiro, J. P.2011. Long-term declines of wader populations at the Tagus estuary, Portugal:a response to global or local factors. Bird Conservation. International.
Clergeau, P., Savard, J. L., Mennechez, G., Falardeau, G.1998. Bird abundance and diversity along an urban-rural gradient:a comparative study between two cities on different continental. Conder 100:413-425.
Collazo, J. A., O'Harra, D. A., Kelly, C. A.2002. Accessible habitat for shorebirds: factors influencing its availability and conservation implications. Waterbirds 25(Suppl. 2):13-24.
Colwell, M.A., Dodd, S.L.1997. Environmental and habitat correlates of pasture use by nonbreeding shorebirds. Condor 99:337-344.
Colwell, M.A., Taft, O.W.,2000. Waterbird communities in managed wetlands of varying water depth. Waterbirds 23:45-55.
Connell, J. H.1978. Diversity in tropical rain forests and coral reefs. Science 199:1302-1310.
Connor, K.J., Gabor, S.2006. Breeding waterbird wetland habitat availability and response to water-level management in Saint John River floodplain wetlands, New Brunswick.Hydrobiologia.567:169-181.
Coops, H., Vulink, J. T., van Nes, E. H.2004. Managed water levels and the expansion of emergent vegetation along a lakeshore. Limnologia 34:57-64.
Craig, R. J., Beal, K. G.1992. The influence of habitat variables on marshbird communities of the Connecticut River estuary. WilsonBulletin 104:295-311.
Cyranoski, D.2009. Putting China's wetlands on the map. Nature 458:134.
Czech, H. A., Parsons, K. C.2002. Agricultural wetlands and waterbirds:A review. Waterbirds 25:56-65.
Darnell, T., Smith, E. H.2004. Avian use of natural and created salt marsh in Texas, USA. Waterbirds 27:355-361.
Davis.1987. Reclamation in Japan 325:6106.
Day, J. H., Colwell, M. A.1998. Waterbird communities in ricefields subjected to different post-harvest treatments. Colonial Waterbirds.21 (2):185-197.
DeSzalay, F.A., Resh, V.H.,1997. Responses of wetland invertebratesand plants important in waterfowl diets to burning and mowingof emergent vegetation. Wetlands 17:149-156.
Devos, J. A., Raats, P. A. C., Feddes, R. A.2002. Chloride transport in a recently reclaimed Dutch Polder. Journal of Hydrology 257:59-77.
Dimalexis, A., Pyrovetsi, M.1997. Effect of water level fluctuations on wading bird foraging habitat use at an irrigation reservoir, Lake Kerkini, Greece. Colonial Waterbirds 20:244-252.
Dunning, J. B., Danielson, B. J., Pulliam, H. R.1992. Ecological processes that affect populations in complex landscapes. Oikos 65:169-175.
Eadie, J. M., Elphick, C. S., Reinecke, K. J., Miller, M. R.2008. Wildlife values of North American rice lands. In:Man ley
Elphick, C.S., Oring, L.W.,1998. Winter management of Californian rice fields for waterbirds. Journal of Applied Ecology 35:95-108.
Elphick, C. S., Oring, L. W.,2003. Conservation implications of flooding rice fields on winter waterbirds communities. Agriculture Ecosystems and Environment. 94:17-29.
Elphick, C. S.2004. Assessing conservation trade-offs:identifying the effects of flooding rice fields for waterbirds on non-target birdspecies. Biological Conservation 117:105-110.
Emilen, J. T.1974. An urban bird community in Tucson, Arizona:derivation, structure, regulation. Condor 76:184-197.
Emily, L., Weiser, Abby, N. Powell.2010. Does Garbage in the diet improve reproductive output of Glaucous Gulls? The Condor 112:530-538.
Erwin, R. M., Beck, R. A.2007. Restoration of waterbird habitats in Chesapeake Bay: great expectations or Sisyphus revisited? Waterbirds 30, (Special Publication 1): 63-176.
Fasola, M., Ru'iz, X.,1997. Rice farming and waterbirds:integrated management in an artificial landscape. In:Pain, D. J., Pienkowski, M.W.1997 Farming and Birds in Europe:the Common Agricultural Policy and its Implications for Bird Conservation. Academic Press, San Diego, CA, pp:210-235.
Fonseca, V. G., Grade, N., Da Fonseca, L. C.,2004. Patterns of association and habitat use by Migrating shorebirds on intertidal mudflats and saltworks on the Tavira Estuary, RiaFormosa, southern Portugal. Wader Study Group Bull.105:50-55.
Froneman, A., Mangnall, M. J., Little, R. M., Crowe, T. M.,2001. Waterbird assemblages and associated habitat characteristics of farm ponds in the Western Cape. South Africa. Biodiversity and Conservation 10:251-270.
Frost, J. W, Schleicher, T., Craft, C.2009. Effects of nitrogen and phosphorus additions on primary production and invertebrate densities in a Georgia (USA) tidal fresh water marsh. Wetlands 29:196-203.
Fujioka, M., Armacost, J. W, Yoshida, H., Maeda, T.,2001. Value of fallow farmlands as summer habitats for waterbirds in a Japanese rural area. Ecological Research 16:555-567.
Furness, R. W., Greenwood, J. J. D., Jarvis, J.1993. Can birds be used to monitor the environment.Birds as Monitors of Environmental Change, London:Chapman& Hall 1-41.
Gawlik, D. E.2002. The effects of prey availability on the numerical response of wading birds. Ecological Monography 72:329-346.
Ge, Z. M., Wang, T. H., Yuan, X., Zhou, X., Shi, W. Y.2006. Use of wetlands at the mouth of the Yangtze River by shorebirds during spring and fall migration. Journal of Field Ornithology.77:347-356.
Gordon, D. H., Gray, B. T., Kaminski, R.M.,1998. Dabbling duck-habitat associations during winter in coastal South Carolina. Journal of Wildlife Management 62:569-580.
Goss-Custard, J. D., Burton, N. H. K., Clark, N. A., Ferns, P. N., McGrorty, S., Reading,C. J., Rehfisch, M. M., Stillman, R. A., Townshend, I., West, A. D., Worrall, D. H.,2006. Test of a behaviour-based individual-based model:response of shorebird mortality to habitat loss. Ecological Application 16:2215-2222.
Goss-Custard, J. D., Yates, M. G.1992. Towards predieting the effect of salt marsh reclamation on feeding bird numbers 6 on the Wash. The Journal of Applied Ecology 29(2):330-340.
Guillemain, M., Fritz, H.2002. Temporal variation in feeding tactics:exploring the role of competition and predators in wintering dabbling ducks. Wildlife Biology 8:81-90.
Hannam, K. M., Oring, L. W., Herzog, M. P.2003. Impacts of salinity on growth and behavior of American Avocet chicks. Waterbirds 26:119-125.
Hattori, A., Mae, S.,2001. Habitat use and diversity of waterbirds in a coastal lagoon around Lake Biwa, Japan. Ecological Research 16:543-553.
Hesterberg, D, devos B, Raats P. A. C,2006. Chemistry of subsurface drain discharge from an agricultural polder soil. Agricultural Water Management 86:220-228.
Hobangh, W. C., Stutzenbaker, C. D., Szwicki, R. J.1994. The rice prairies. In:Smith Lm, Pederson RL, Kaminski RM(eds)Habitat management for migrating and wintering waterfowl in north America. Texas Tech Univ. Press, Lubbock:367-383.
Holm, T.E., Clausen, P.2006. Effects of water level management on autumn staging waterbird and macrophyte diversity in three Danishcoastal lagoons. Biodiversity and Conservation 15:4399-4423.
Hong Kong bird watching society.2012. The international black-faced spoonbill census 2011 and 2012.
Hoover, J. P.2009. Effects of hydro logic restoration on birds breeding in forested wetlands. Wetlands 29:563-573.
Hosteler, M., Holling, C. S.2000. Detecting the scales at which birds respond to landscapes structure in urban landscapes. Urban Ecosystems 4:25-54.
Hosteler, M., Knowles-Yanez, K.2002. Land use, scale, and bird distributions in the phoenix metropolitan area. Landscape and Urban planning 62:55-68.
Hoyer, M. V., Canfield, D. E. Jr.1994. Bird abundance and species richness on Florida lakes:influence of tropic status, lake morphology and aquatic macrophytes. Hydrobiologia 279(280):107-119.
Hu, L. T., Jiao, J. J.2010. Modeling the influences of land reclamation on ground water systems:in Shekou Peninsula, Shenzhen, China. Engineering Geology 114:144-153.
Huner, J.2000. Crawfish and waterbirds. American scientist 88:301.
Incheo, K., Sooil, K.2006. Foraging sites and food resources of the Black-faced Spoonbill during its breeding season in South Korea.In proceedings:keeping Asia's Spoonbills airborne International symposium on research and conservation of the Black-faced Spoonbill.Hong Kong:Hong Kong Bird Watching Society 22.
Isola, C. R., Colwell, M. A., Taft, O. W., Safran, R. J.2002. Interspecific differences in habitat use of shorebirds and waterfowl foraging in managed wetlands of California's San Joaquin Valley.Waterbirds 25 (suppl.2):196-203.
Jokimaki, J., Suhonen, J.1993. Effects of urbanization on the breeding bird species richness in Finland:a biogeographical comparison. Ornid Fennica 70:71-77.
Kaminski, M. R., Baldassarre, G. A., Pearse, A. T.,2006. Waterbird responses to hydro logical management of Wetlands Reserve Program habitatsin New York. Wildlife Society Bulletin 34:921-926.
Kelly, J. P., Stralberg, D., Etienne, K., McCaustland, M.2008. Landscape influence on the quality of heron and egret colony sites. Wetlands 28:257-275.
Kisup L., Incheol K.,2006. Status and breeding biology of Black-faced Spoonbills in Korea. In proceedings:keeping Asia's Spoonbills airborne International symposium on research and conservation of the Black-faced Spoonbill.Hong Kong:Hong Kong Bird Watching Society:56-62.
Kraan, C., Van Gils, J.A., Spaans, B., Dekinga, A., Bijleveld, A. I., Van Roomen, M., Kleefstra, R. Piersma, T.2009. Landscape scale experiment demonstrates that Wadden Sea intertidal flats are used to capacity by molluscivore migrant shorebirds. Journal of Animal Ecology 7:1259-1268.
Lancaster, R. K., Rees, W. E.1979. Bird communities and the structure of urban habitats, Canadian Journal of Zoology 57:2358-2368.
Lane, S. J., Fujioka, M.,1998. The impact of changes in irrigation practices on the distribution of foraging egrets and herons (Ardeidae) in rice fields of central Japan. Conservtion 183:221-230.
Lesley, J., Evans Ogden., Shabtai Bittman., David, B. Lank., F, Craig Stevenson., 2007. Factors infuluencing farmland habitat use by shorebirds wintering in the Fraser River Delta, Canada. Agriculture Ecosystems and Environment 124:252-258.
Losito, M.P., Baldassarre, G.A.,1995. Wetland use by breeding and postbreeding female mallards in the St. Lawrence River Valley.Wilson Bulletin 107:55-63.
Luis, A., Goss-Custard, J. D., Moreira, M.H.2002. The feeding strategy of the dunlin(CalidrisAlpine L.) in artificial and non-artificial habitats at Ria de Aveiro, Portugal. Hydrobiologia 475(1):335-343.
Ma, Z. J, Wang, Z. J., Tang, H. X.,1999. Habitat use and selection by red-crowned crane Grusjaponensisin winter in Yancheng Biosphere Reserve, China. Ibis.141:135-139.
Ma, Z. J., Tang, S. M., Lu, F. Chen, J. K.2002. Chongming Island:A less important shorebirds stopover site during southward migration. Stilt 41:35-37.
Ma, Z. J., Li, B., Zhao, B., Jing, K., Tang, S.M., Chen, J.K.,2004. Are artificial wetlands good alternatives to natural wetlands for waterbirds?-A case study on Chongming Island, China. Biodiversity and Conservation.13:333-350.
Ma, Z. J., Li, B., Li, W. J., Han, N. Y., Chen, J. K.,Watkinson, A.2009. Conflicts between biodiversity conservation and development in a bio-sphere reserve. Journal of Applied Ecology 46:527-535.
Ma, Z. J., Cai, Y. T., Li, B., Chen, J.K.2010. Managing wetland habitats for waterbirds:A international perspective. Wetland 30:15-27.
Maff, L., Oviedo, G., Larsen, P. B.,2000. Indigenous and traditional peoples of the world and eco-region conservation:an integrated approach to conserving the world's biological and cultural diversity. Switzerland, Gland, WWF Research Report No.145. Marzluff, J. M., Gelbach, F. R., Manwal, D. A.1998. Urban environments:influences on avifauna and challenges for the avian conservationist. In J.M. Marzluff and R. Sallabanks, Eds. Avian conservation:research and management. Island Press, Washington, D. C.
Marzluff, J. M., Bowman, R., Donnelly, R.2001. A historical perspective on urban bird research:trends, topics, and definitions. In:Marzluff, J. M. M Bowman, R., Donnelly, R. Eds Avian ecology and community in an urbanizing world. Kluwer, Norwell.
Masero, J. A., Perez-Hurtado, A., Castro, M., Arroyo, G. M.2000. Complementary use of intertidal Mudflats and adjacent Salinas by foraging waders. Ardea 88(2):177-191.
Matheu E., Hoyo J. D.1992. Family Threskiornithidae (Ibises and Spoonbills).In Hoyo J D, Elliot A, Sargatal J eds. Handbook of the birds of the world, Barcelona: Lynx Editions:472-507.
Mills, G. S., Dunning Jr, J. B., Bates, J. M.1989. Effects of urbanization on breeding bird community structure in southweatern desert habitats. Condor 91:416-428.
Miller, M. R., Garr, J. D., Coates, P. S.2010. Change in the status of harvested rice fields in the Sacramento valley, California; Implications for wintering waterfowl. Wetlands 30:939-947.
Milsom, T. P., Haskell, D. J., Langton, S. D., Mckay, H. V.1998. Design of grassland feeding areas for waders during winter:the relative importance of sward, landscape factors and human disturbance. Biological Conservation 84:119-129.
Mitchell, L. R., Gabrey, S., Marra, P. P., Erwin, R. M.,2006. Impacts of marsh management on coastal-marsh birds habitats. Studies in Avian Biology 32:155-175.
Mitsch, W. J., Wilson, R. F.,1996. Improving the success of wetlandcreation and restoration with know-how, time, and self-design. Ecological Applications 6:77-83.
Moores, N., Rogers, D. I., Kim, R. H., Hassell, C. J., Gosbell, K., Kim, S. A., Park, M. N.,2008.The 2006-2008 Saemangeum Shorebird Monitoring Program Report. Busan, Korea:Birds Korea.
Niu, J. Y., Zou, Y. A., Yuan, X., Zhang, B., Wang, T. H.2013. Waterbird Distribution patterns and environmentally impacted factors in reclaimed coastal wetlands of the eastern end of the Nanhui County, Shanghai, China. Acta Zoologica Academiae Scientiarum Hungaricae.59(2):171-185.
Nolet, B.A., Bevan, R.V., Klaassen, M., Langevoord, O., van der Heijden, Y.G.J.T., 2002. Habitat switching by Bewick's swans:maximization of average long-term energy gain. Journal of Animal Ecology 71:979-993.
Ntiamoa-Baidu, Y., Piersma, T., Wiersma, P., Poot, M., Battley, P., Gordon, C.1998. Water depth selection, daily feeding routines and diets of waterbirds in coastal lagoons in Ghana. Ibis 140:89-103.
Nyman, J. A., Chabreck, R. H.1995. Fire in coastal marshes:history andrecent concerns. Proceedings of the Annual Tall Timbers Fire Ecology Conference 19:134-141.
Ogden, J. C.1991. Nesting by wood storks in natural, altered, and artificial wetlands in central and northern Florida. Colonial Waterbirds 14:39-45.
Ogden, J. C.,1994. A comparison of wading bird nesting colony dynamics (1931-1946 and 1974-1989) as in indication of ecosystem conditions in the Southern Everglades. In:DavisSM, Ogden JC (eds) Everglades:The ecosystem and its restoration. St. Lucie, Delray Beach pp:533-570.
O'Neal, B. J., Heske, E. J., Stafford, J. D.,2008. Waterbird response to wetlands restored through the conservation reserve enhancement program.Journal of Wildlife Management 72:654-664.
Owen, M., Black, J. M.,1990. Waterfowl ecology. Blackie and Son Ltd., Glasgow. Paracuellos, M., Telleria, J. L.2004. Factors affecting the distribution of a waterbird community:the role of habitat configuration and bird abundance. Waterbirds 27:446-453.
Paracuellos, M.2006. How can habitats selection affect the use of a wetland complex by waterbirds? Biodiversity and Conservation 15:4569-4582.
Parsons, K.C.2002. Integrated management of waterbird habitats at impounded wetlands in Delaware Bay, USA. Waterbirds 25(suppl.2):25-41.
Piersma, T.2009. Threats to intertidal soft sediment ecosystems.57-69 in S,Rein-hard and H.Folmer, eds.Water policy in the Netherlands integrated management in a densely populated delta. Washington, DC:Resources for the Future.
Post, W.1998. Reproduction of least bitterns in a managed wetland. Colonial Waterbirds 21:268-273.
Powell, G. V. N.1987. Habitat us by wading birds in a subtropical estuary: implications of hydrography. The Auk 104:740-749.
Poysa, H.,1983. Resource utilization pattern and guild structure in a waterfowl community. Oikos 40:295-307.
Purdue, J. R., Haines, H.1977. Salt water tolerance and water turnover in the snowy plover. The Auk 94:248-255.
Pyrovetsi, M.1997. Integrated management to create new breeding habitat for Dalmatian pelicans (Pelecanuscrispus) in Greece. Environmental Management 21:657-667.
Rehfisch, M. M.,1994, Man-made lagoons and how their attractiveness to waders might be increased by manipulating the biomass of an insect benthos. Journal of Applied Ecology 31:383-401.
Rubega, M. A., Robinson, J. A.1997. Water salinization and shorebirds:emerging issues. International Wader Studies 9:45-54.
Sanchez-Zapata, J. A., Anadon, J. D., Carrete, M., Gimenez, A., Navarro, J., Villacorta, C., Botella, F.2005. Breeding waterbirds in relation to artificial pond attributes:implications for the design of irrigation facilities. Biodiversity and Conservation 14:1627-1639.
Scheffer, M., van Geest, G.J., Zimmer, K., Butler, M.G., Hanson, M.A.,Declerck, S., de Meester, L., Jeppesen, E., Sondergaard, M.2006. Small habitat size and isolation can promote species richness:second-order effects on biodiversity in shallow lakes and ponds.Oikos 112:227-231.
Shin, ichiSato, Mikio A.,2002. Ecologieal and Paleoecological implications of the rapid increase and decrease of an intro-duced bivalve Potamoeorbulasp after the construction of a reclamation dike in lsahayaBay, westernKyushU, Japan Palaeogeogra PhyPalaeo climatology Palaeoecology 185:369-378.
Spiiker. J., Vriend,S. P., Van Gaans P. F. M.,2005.Natural and anthropogenic Patterns Of covariance and spatial variability of minor and trace elements in agricultural topsoil.Geoderma 127:24-35.
Stapanian, M. A.,2003. Species density of waterbirds in offshore habitats in western Lake Erie. Journal of Field Ornithology 74:381-393.
Stralberg, D., Applegate, D. L., Phillips, S. J., Herzog, M. P., Nur, N., Warnock, N. 2009. Optimizing wetland restoration and management for avian communities using a mixed integer programming approach. Biological Conservation 142:94-109.
Stuyfzand, P. J.1995.The impact of land reclamation on ground water quality and future drinking water supply in the Netherlands.Water Science and Technology 31:47-57.
Thebault, J., Schraga, T. S., Cloern, J. E., Dunlavey, E. G.2008. Primary production and carrying capacity of former salt ponds after reconnection to San Francisco bay. Wetlands 28:841-851.
Tourenq, C., Bennetts, R. E., Kowalski, H., Vialet, E., Lucchesi, J. L., Kayser, Y. 2001. Are ricefields a good alternative to natural marshes for waterbird communities in the Camargue, southern France?. Biology Conservation 100:335-343.
Traut, A. H., Hosteler, M. E.2003. Urban lakes and waterbirds:effects of shoreline development
Traut, A. H., Hosteler, M. E.2004. Urban lakes and waterbirds:effects of shoreline development on avian distribution.Landscape and urban planning 69:69-85.
Ueng Y. T., Preng J. J., Wang J P.,2006. Diet of the Black-faced Spoonbill wintering at Chiku Wetland in southwestern Taiwan.Waterbirds 29 (2):185-190.
Untited Nations.1996. World urbanization prospects:the 1996 revision. United Nations, New York.
Vande Kam, J., Ens, B., Piersma, T., Zwarts, L.,2004. Shorebirds. An illustrated behavioural ecology. Utrecht, The Netherlands:KNNV Publishers.
Van Rees-Siewert, K. L., Dinsmore, J. J.,1996. Influence of wetland age on bird use of restored wetlands in Iowa. Wetlands 16:577-582.
Velasquez, C.R.,1992. Managing artificial saltpans as a waterbird habitat:species responses to water level manipulation. Colonial Waterbirds 15:43-55.
Velasquez, C.R., Hoekey, P.1992. The importance of supratidal foraging habitats for wadersat a south temperate cestuary. Ardea 80(2):243-253.
Viguria J. R., Irabienb M. J., Yustabl, I., Soto, J., Gomez, P., Rodriguez, M., Martinez-Madrid, M., Irabien, J. A., Coz, A.2007. Physico-chemieal and toxicological Characterization of the historic estuarine sediments:A multidisciplinary approach.Environment Intemational,33(4):436-444.
Warnock, N., Page, G. W., Ruhlen, T. D., Nur, N., Takekawa, J. Y, Hanson, J. T.2002. Management and conservation of San Francisco Bay saltponds:effects of pond salinity, area, tide, and season on Pacificflyway waterbirds. Waterbirds 25(Suppl. 2):79-92.
Wetlands International.2006. Waterbird population estimate. Fourth edition. Wageningen. The Netherlands:Wetlands International.
White, C. L., Main, M. B.,2005. Habitat value of golf course wetlands to waterbirds. USGA Turfgrass and Environmental Research 3(16):7-11.
Wiggins, G. B., Mackay, R. J., Smith, I. M.,1980. Evolutionary andecological strategies of animals in annual temporary pools. Archives of Hydrobiology Supplement 58:97-206.
Xu, J. L., Zhang, X. H., Zhang, Z. Z., Zheng, G. M., Ruan, X. F., Zhang, K. Y., Xi, B.2010. Breeding habitat selection of reeves's pheasant (Syrmaticus reevesii) in Dongzhai National Nature reserve, Henan province, China. Zoological Research 31:198-204
Yang, H. Y., Chen, B., Barter. M., Piersma, T., Zhou, C. F., Li, F. S., Zhang, Z. Z. 2011. Impacts of tidal land reclamation in Bohai Bay, China:ongoing losses of critical Yellow sea waterbird staging and wintering sites. Bird Conservation International 21:241-259.
Zhang, W., Liao, P., Wang, B.,2006. Study on the Impact of Reclamation onTidal Current in Caofeidian, Bohai Sea. Proceeding of the 15th Congress of APD-IAHR IITMadras. India 969-978.
Zedler, J. B., Linding-Cisneros.2002. Functional equivalency of restored and natural salt marshes.565-582. In M. P. Weinstein and D. A.Kreeger, editors. Concepts and controversies in tidal marsh ecology. Klumer Academic Publishers, Dordrecht, The Netherlands.
陈君,张长宽,林康,丁贤荣,袁汝华.2011江苏沿海滩涂资源开发利用研究39(2):213-219.
陈吉余.2000.中国围海工程.北京:中国水利水电出版社.
陈水华,丁平,郑光美,诸葛阳.2000.城市化对杭州市湿地水鸟群落的影响研究.动物学研究21(4):279-285.
陈炜,宋卓彦,国辉,王昊,魏婷,李楠,张开翼,杨书香,戴开甲,
潘祖亭.2007.武汉市城市湖泊与城市湿地冬季鸟类资源及生境分析.林业调查规划32(5):46-50.
崇明东滩国家级鸟类自然保护区管理处.2009.上海崇明东滩鸟类国家级自然保护区年度资源监测报告.
崇明东滩国家级鸟类自然保护区管理处.2010.上海崇明东滩鸟类国家级自然保护区年度资源监测报告.
崇明东滩国家级鸟类自然保护区管理处.2011.上海崇明东滩鸟类国家级自然保护区年度资源监测报告.
丁平,鲍毅新,诸葛阳.1994.萧山围垦农区小型兽类种群动态的研究.兽类学报14(1):35-42.
董哲任.2003.荷兰围垦区生态重建的启示.中国水利11(A):45-49.
付红波,李取生,骆承程,陈连运.2009.珠三角滩涂围垦农田土壤和农作物重金属污染.农业环境科学学报28(6):1142-1146.
高伟,陆健健.2008.长江口潮滩湿地鸟类适栖地营造实验及短期效应.生态学报28(5):2080-2089.
巩晋楠,王开运,张超,马永.2009.围垦滩涂湿地旱生耐盐植物的入侵和影响.应用生态学报22(1):33-39.
郭文利,袁晓,裴恩乐,夏述忠,严晶晶,王天厚.2010.上海南汇东滩湿地鸟类资源调查四川动物29(5):597-604.
何玮,薛俊增,方伟,吴惠仙.2010.滩涂围垦湖泊滴水湖水质现状分析.科技通报26(2):569-578.
衡楠楠,牛俊英,张斌,袁晓,王天厚.2011.鸻形目鸟类对南汇滨海滩涂的生境选择.复旦学报50(3):296-301.
胡知渊,李欢欢,鲍毅新,葛宝明.2008.灵昆岛围垦区内外滩涂大型底栖动物生物多样性.生态学报25(4):1498-1507.
华宁,马志军,马强,宋国贤,汤臣栋,李博,陈家宽.2009.冬季水塘对崇明东滩水产养殖塘的利用.生态学报29(12):6342-6350.
黄日富.2006.荷兰围海拦海工程考察的启示.南方国土资源(6):18-21.
姜珊,葛振鸣,裴恩乐.2007.崇明东滩堤内次生人工湿地冬季水鸟的夜间行为.动物学杂志42(6):21-27.
敬凯,唐仕敏,陈家宽,马志军.2002.崇明东滩白头鹤的越冬生态.动物学杂志37(6):29-34.
李九发,万新宁,陈小华,徐海根.2003.上海滩涂后备土地资源及其可持续开发途径.长江流域资源与环境12(1):17-21.
李九发,戴志军,应铭.2007.上海市沿海滩涂土地资源围圈与潮滩发育演变分析.自然资源学报22(3):361-371.
李群,闫双喜,阎亮,黄锦辉,赵勇.2006.人类活动对黄河湿地鸟类生态栖息地影响—以三门峡黄河天鹅观赏园建设为例.河南科学24(5):749-752.
李茂田,陈中原,李刚.2004.从长江口南汇东滩冲淤变化探讨合理选择促淤造陆边界.长江流域资源与环境13(4):365-369.
李楠楠,顾尔康,张建新.2011.围海造地的国际比较分析及启示.时代金融10:168-169183.
李世宗,刘震.2012.昆明翠湖越冬红嘴鸥数量变化及投食量调查分析.野生动物33(3):146-148.
刘杰,陈吉余,陈沈良.2007.长江口南汇东滩滩地地貌演变分析.泥沙研究(6):47-52.
路珊,刘晶,邹业爱,牛俊英,倪华明,王天厚.2013.上海浦东东滩滩涂围垦后农业种植养殖区对春秋迁徙水鸟群落的影响.复旦学报.(接收).
罗莎,胡鸿兴,成水平,贺锋,吴振斌.2010.武汉市金银湖水鸟多样性及其与水环境关系的初步研究.长江流域资源与环境19(6):671-675.
罗章仁.1997.香港填海造地及其影响研究.地理学报52(3):220-227.
马长安,徐霖林,田伟,吕巍巍,赵云龙.2012.围垦对南汇东滩湿地大型底栖动物的影响.生态学报32(4):1007-1015.
马金妍,石冰,王开运,巩晋楠,侯颖.2009.崇明东滩湿地围垦区芦苇生物量影响因素初探.生态与农村环境学报25(4):100-104.
马志军.2002.崇明东滩鸟类及其栖息地研究.上海:复旦大学博士后学位论文.
孟伟庆,王秀明,李洪远,丁晓.2012.天津滨海新区围海造地的生态环境影响分析.海洋环境科学31(1):83-87.
牛俊英,衡楠楠,张斌,袁晓,王天厚.2011.上海市南汇东滩围垦后海堤带湿地冬春季水鸟生境选择.动物学研究32(6):624-630.
欧冬妮,刘敏,侯立军,刘巧梅,张斌亮,杨毅,2002.围垦对东海农场沉积物无机氮分布的影响.海洋环境科学21(5):18-22.
潘少明,施晓冬,王建业,Peter Tsnner Lai Shing leong.2000.围海造地工程对香港维多利亚港现代沉积作用的影响.沉积学报18(1):22-28.
慎佳泓,胡仁勇,李铭红,丁平,于明坚,丁炳扬.2006.杭州湾和乐清湾滩涂围垦对湿地植物多样性的影响.浙江大学学报:理学版33(5):324-328.
石冰,马金妍,王开运,巩晋楠,张超,刘为华.2010.崇明东滩围垦芦苇生长、繁殖和生物量分配对大气温度升高的响应,长江流域资源与环境19(4):383-388.
孙永光.2011.长江口不同年限围垦区景观结构与功能分异.上海:华东师大博士论文.
万树文,钦佩,朱洪光等.2000.盐城自然保护区两种人工湿地模式评价.生态学报20(5):759-765.
王强,吕宪国.2007.鸟类在湿地生态系统监测与评价中的作用5(3):274-281.
王天厚,钱国桢.1988.长江口杭州湾鸻形目鸟类.上海:华东师大出版社.
吴兆录,郑曼丽,潘邦珍,赵雪冰,王紫江,杨明.2008.红嘴鸥在昆明城区的停留时间及其影响因素.四川动物27(3):351-355.
香港观鸟会有限公司.2009.中国沿海水鸟同步调查报告.
香港观鸟会有限公司.2011.中国沿海水鸟同步调查报告.
谢寅万.2011.论围海造地的法律规制.法制与社会1:61-63.
徐俊杰,陈勇.2011.基于RS与GIS的南汇东滩围垦研究.上海国土资源32(3):18-22.
杨华.2013.香港填海造地的法律实践及其借鉴意义.法学1:44-51.
杨晓婷,牛俊英,罗祖奎,张美,汤臣栋,王天厚.2013.崇明东滩抛荒鱼塘的自然演替过程对水鸟群落的影响.生态学报33(13):4050-4058.
虞快.1991.崇明岛东部滩涂的越冬水禽及其保护.野生动物2:15-18
袁兴中,陆健健.2001.围垦对长江口南岸底栖动物群落结构及多样性的影响.生态学报21(10):1642-1647.
张斌,袁晓,裴恩乐,牛俊英,衡楠楠,王天厚.2011.长江口滩涂围垦后水鸟群落结构的变化—以南汇东滩为例.生态学报(16):4599-4608.
张国梁,梁伟,楚国忠.2006.海南黑脸琵鹭的越冬行为分析.生物多样性14(4):352-358.
郑光美.2011.中国鸟类分类与分布名录.北京:科学出版社.
郑作新.2002.中国鸟类系统检索(第三版).北京:科学出版社.
仲阳康,周慧,施文,周晓,周立晨,王天厚.2006.上海滩涂春季鸻形
目鸟类群落及围垦后生境选择.长江流域资源与环境.15(3):378-383.
周怡生.2000.为上海城乡发展提供建设用地-南汇东滩滩涂促淤围垦工程简介.上海建设科技1:23-24.
中国国家林业局.2000.中国湿地保护行为计划.
朱小敖.2001.围海造地是实现耕地总量动态平衡的主要途径.浙江水利科技3:76-77.
Acosta, M., Mugica, L., Mancina, C., Ruiz, X.1996. Resource partitioning between glossy and white ibises in a rice field system in south-central Cuba. Colonial Waterbirds 19:65-72.
Acuna, R., Contreras, F., Kerekes, J.1994. Aquatic bird densities in two coastal lagoon systems in Chiapas State, Mexico, a preliminary assessment. Hydrobiologia 279(280):101-106.
Aldrich, J. W., Coffin, R. W.1980. Breeding bird populations from forest to suburbia after thirty-seven years. American Birds 34:3-7.
Atkinson, P. W., Fuller, R. J., Vickery, J. A., Conway, G. J., Tallowin, J.R.B., Smith, R.E.N., Haysom, K.A., Ings, T. C., Asteraki, E. J., Brown, V.K.2004. Influence of agricultural management, sward structure and food resources on grassland field use by birds in lowland England. Journal of Applied Ecology 42:932-942.
Auman, H. J., Meathrel, C. E., Richardson, A.2008. Supersize Me:does anthropogenic food change the body condition of Silver Gulls? A comparison between urbanized and remote, non-urbanized areas Waterbirds 31:122-126.
Badsha, K.S., GoldsPink, C.R.,1988. Heavy metal levels in threes species of fish in Tjeukemeer, a Dutch Polder Iake.ChemosPhere 17:459-463.
Bamford, M., Watkins, D., Bancroft, W., Tischler, G., Wahl, J.2008. Migratory Shorebirds of the East Asian-Australasian flyway; population estimates and an internationally important sites.Canberra, Australia:Wetlands International-Oceania.
Bancroft, C.T., Strong, A. M., Sawicki, R. J., Hoffman, W, Jewell, S. D.,1994. Relationships among wading bird foraging patterns, colony locations, and hydrology in the Everglades. In:Davis SM, Ogden JC (eds) Everglades:The ecosystem and its restoration.St. Lucie, Delray Beach:615-657.
Bancroft, G.T., Gawlik, D.E., Rutchey, K.,2002. Distribution of wading birds relative to vegetation and water depths in the Northern Everglades of Florida, USA. Waterbirds 25:265-277.
Blair, R. B.1996. Land use and avian species diversity along an urban gradient. Ecological Applications 6:506-519.
Brouder, S.M., Hill, J.E.,1995. Winter flooding of ricelands provides waterfowl habitat. California. Agriculture 49:58-64.
Brown, M., Dinsmore, J. J.,1986. Implications of marsh size and isolation for marsh bird management. Journal of Wildlife Management 50:392-397.
Burton, N. H. K., Rehfisch, M. M., Clark, N. A., Dodd, S. G.2006. Impacts of sudden winter habitat loss on the body condition and survival of red shank Tringatotanus. Journal of Applied Ecology 43:464-473.
Byeong, M. M., Kim, J. H.1999. Plant Community Structure in Reclaimed Lands on the West Coast of Korea. Journal of Plant Biology 42:287-293.
Cam, E., Nichols, J. D., Suarez, A. V., Crooks, K. R., Morrison, S. A., Case, T. J. 2000. Arthropods in urban habitat fragments in southern California:area, age, and edge effects. Ecological Applications 10:1230-1248.
Catry,T., Alves, J. A., Andrade, J., Costa, H., Dias, M. P., Fernandes, P., Leal, A., Lourenco, P. M., Martins, R. C., Moniz, F., Pardal, S., Rocha, A., Santos, C. D., Encarnacao,V. Granadeiro, J. P.2011. Long-term declines of wader populations at the Tagus estuary, Portugal:a response to global or local factors. Bird Conservation. International.
Clergeau, P., Savard, J. L., Mennechez, G., Falardeau, G.1998. Bird abundance and diversity along an urban-rural gradient:a comparative study between two cities on different continental. Conder 100:413-425.
Collazo, J. A., O'Harra, D. A., Kelly, C. A.2002. Accessible habitat for shorebirds: factors influencing its availability and conservation implications. Waterbirds 25(Suppl. 2):13-24.
Colwell, M.A., Dodd, S.L.1997. Environmental and habitat correlates of pasture use by nonbreeding shorebirds. Condor 99:337-344.
Colwell, M.A., Taft, O.W.,2000. Waterbird communities in managed wetlands of varying water depth. Waterbirds 23:45-55.
Connell, J. H.1978. Diversity in tropical rain forests and coral reefs. Science 199:1302-1310.
Connor, K.J., Gabor, S.2006. Breeding waterbird wetland habitat availability and response to water-level management in Saint John River floodplain wetlands, New Brunswick.Hydrobiologia.567:169-181.
Coops, H., Vulink, J. T., van Nes, E. H.2004. Managed water levels and the expansion of emergent vegetation along a lakeshore. Limnologia 34:57-64.
Craig, R. J., Beal, K. G.1992. The influence of habitat variables on marshbird communities of the Connecticut River estuary. WilsonBulletin 104:295-311.
Cyranoski, D.2009. Putting China's wetlands on the map. Nature 458:134.
Czech, H. A., Parsons, K. C.2002. Agricultural wetlands and waterbirds:A review. Waterbirds 25:56-65.
Darnell, T., Smith, E. H.2004. Avian use of natural and created salt marsh in Texas, USA. Waterbirds 27:355-361.
Davis.1987. Reclamation in Japan 325:6106.
Day, J. H., Colwell, M. A.1998. Waterbird communities in ricefields subjected to different post-harvest treatments. Colonial Waterbirds.21 (2):185-197.
DeSzalay, F.A., Resh, V.H.,1997. Responses of wetland invertebratesand plants important in waterfowl diets to burning and mowingof emergent vegetation. Wetlands 17:149-156.
Devos, J. A., Raats, P. A. C., Feddes, R. A.2002. Chloride transport in a recently reclaimed Dutch Polder. Journal of Hydrology 257:59-77.
Dimalexis, A., Pyrovetsi, M.1997. Effect of water level fluctuations on wading bird foraging habitat use at an irrigation reservoir, Lake Kerkini, Greece. Colonial Waterbirds 20:244-252.
Dunning, J. B., Danielson, B. J., Pulliam, H. R.1992. Ecological processes that affect populations in complex landscapes. Oikos 65:169-175.
Eadie, J. M., Elphick, C. S., Reinecke, K. J., Miller, M. R.2008. Wildlife values of North American rice lands. In:Man ley
Elphick, C.S., Oring, L.W.,1998. Winter management of Californian rice fields for waterbirds. Journal of Applied Ecology 35:95-108.
Elphick, C. S., Oring, L. W.,2003. Conservation implications of flooding rice fields on winter waterbirds communities. Agriculture Ecosystems and Environment. 94:17-29.
Elphick, C. S.2004. Assessing conservation trade-offs:identifying the effects of flooding rice fields for waterbirds on non-target birdspecies. Biological Conservation 117:105-110.
Emilen, J. T.1974. An urban bird community in Tucson, Arizona:derivation, structure, regulation. Condor 76:184-197.
Emily, L., Weiser, Abby, N. Powell.2010. Does Garbage in the diet improve reproductive output of Glaucous Gulls? The Condor 112:530-538.
Erwin, R. M., Beck, R. A.2007. Restoration of waterbird habitats in Chesapeake Bay: great expectations or Sisyphus revisited? Waterbirds 30, (Special Publication 1): 63-176.
Fasola, M., Ru'iz, X.,1997. Rice farming and waterbirds:integrated management in an artificial landscape. In:Pain, D. J., Pienkowski, M.W.1997 Farming and Birds in Europe:the Common Agricultural Policy and its Implications for Bird Conservation. Academic Press, San Diego, CA, pp:210-235.
Fonseca, V. G., Grade, N., Da Fonseca, L. C.,2004. Patterns of association and habitat use by Migrating shorebirds on intertidal mudflats and saltworks on the Tavira Estuary, RiaFormosa, southern Portugal. Wader Study Group Bull.105:50-55.
Froneman, A., Mangnall, M. J., Little, R. M., Crowe, T. M.,2001. Waterbird assemblages and associated habitat characteristics of farm ponds in the Western Cape. South Africa. Biodiversity and Conservation 10:251-270.
Frost, J. W, Schleicher, T., Craft, C.2009. Effects of nitrogen and phosphorus additions on primary production and invertebrate densities in a Georgia (USA) tidal fresh water marsh. Wetlands 29:196-203.
Fujioka, M., Armacost, J. W, Yoshida, H., Maeda, T.,2001. Value of fallow farmlands as summer habitats for waterbirds in a Japanese rural area. Ecological Research 16:555-567.
Furness, R. W., Greenwood, J. J. D., Jarvis, J.1993. Can birds be used to monitor the environment.Birds as Monitors of Environmental Change, London:Chapman& Hall 1-41.
Gawlik, D. E.2002. The effects of prey availability on the numerical response of wading birds. Ecological Monography 72:329-346.
Ge, Z. M., Wang, T. H., Yuan, X., Zhou, X., Shi, W. Y.2006. Use of wetlands at the mouth of the Yangtze River by shorebirds during spring and fall migration. Journal of Field Ornithology.77:347-356.
Gordon, D. H., Gray, B. T., Kaminski, R.M.,1998. Dabbling duck-habitat associations during winter in coastal South Carolina. Journal of Wildlife Management 62:569-580.
Goss-Custard, J. D., Burton, N. H. K., Clark, N. A., Ferns, P. N., McGrorty, S., Reading,C. J., Rehfisch, M. M., Stillman, R. A., Townshend, I., West, A. D., Worrall, D. H.,2006. Test of a behaviour-based individual-based model:response of shorebird mortality to habitat loss. Ecological Application 16:2215-2222.
Goss-Custard, J. D., Yates, M. G.1992. Towards predieting the effect of salt marsh reclamation on feeding bird numbers 6 on the Wash. The Journal of Applied Ecology 29(2):330-340.
Guillemain, M., Fritz, H.2002. Temporal variation in feeding tactics:exploring the role of competition and predators in wintering dabbling ducks. Wildlife Biology 8:81-90.
Hannam, K. M., Oring, L. W., Herzog, M. P.2003. Impacts of salinity on growth and behavior of American Avocet chicks. Waterbirds 26:119-125.
Hattori, A., Mae, S.,2001. Habitat use and diversity of waterbirds in a coastal lagoon around Lake Biwa, Japan. Ecological Research 16:543-553.
Hesterberg, D, devos B, Raats P. A. C,2006. Chemistry of subsurface drain discharge from an agricultural polder soil. Agricultural Water Management 86:220-228.
Hobangh, W. C., Stutzenbaker, C. D., Szwicki, R. J.1994. The rice prairies. In:Smith Lm, Pederson RL, Kaminski RM(eds)Habitat management for migrating and wintering waterfowl in north America. Texas Tech Univ. Press, Lubbock:367-383.
Holm, T.E., Clausen, P.2006. Effects of water level management on autumn staging waterbird and macrophyte diversity in three Danishcoastal lagoons. Biodiversity and Conservation 15:4399-4423.
Hong Kong bird watching society.2012. The international black-faced spoonbill census 2011 and 2012.
Hoover, J. P.2009. Effects of hydro logic restoration on birds breeding in forested wetlands. Wetlands 29:563-573.
Hosteler, M., Holling, C. S.2000. Detecting the scales at which birds respond to landscapes structure in urban landscapes. Urban Ecosystems 4:25-54.
Hosteler, M., Knowles-Yanez, K.2002. Land use, scale, and bird distributions in the phoenix metropolitan area. Landscape and Urban planning 62:55-68.
Hoyer, M. V., Canfield, D. E. Jr.1994. Bird abundance and species richness on Florida lakes:influence of tropic status, lake morphology and aquatic macrophytes. Hydrobiologia 279(280):107-119.
Hu, L. T., Jiao, J. J.2010. Modeling the influences of land reclamation on ground water systems:in Shekou Peninsula, Shenzhen, China. Engineering Geology 114:144-153.
Huner, J.2000. Crawfish and waterbirds. American scientist 88:301.
Incheo, K., Sooil, K.2006. Foraging sites and food resources of the Black-faced Spoonbill during its breeding season in South Korea.In proceedings:keeping Asia's Spoonbills airborne International symposium on research and conservation of the Black-faced Spoonbill.Hong Kong:Hong Kong Bird Watching Society 22.
Isola, C. R., Colwell, M. A., Taft, O. W., Safran, R. J.2002. Interspecific differences in habitat use of shorebirds and waterfowl foraging in managed wetlands of California's San Joaquin Valley.Waterbirds 25 (suppl.2):196-203.
Jokimaki, J., Suhonen, J.1993. Effects of urbanization on the breeding bird species richness in Finland:a biogeographical comparison. Ornid Fennica 70:71-77.
Kaminski, M. R., Baldassarre, G. A., Pearse, A. T.,2006. Waterbird responses to hydro logical management of Wetlands Reserve Program habitatsin New York. Wildlife Society Bulletin 34:921-926.
Kelly, J. P., Stralberg, D., Etienne, K., McCaustland, M.2008. Landscape influence on the quality of heron and egret colony sites. Wetlands 28:257-275.
Kisup L., Incheol K.,2006. Status and breeding biology of Black-faced Spoonbills in Korea. In proceedings:keeping Asia's Spoonbills airborne International symposium on research and conservation of the Black-faced Spoonbill.Hong Kong:Hong Kong Bird Watching Society:56-62.
Kraan, C., Van Gils, J.A., Spaans, B., Dekinga, A., Bijleveld, A. I., Van Roomen, M., Kleefstra, R. Piersma, T.2009. Landscape scale experiment demonstrates that Wadden Sea intertidal flats are used to capacity by molluscivore migrant shorebirds. Journal of Animal Ecology 7:1259-1268.
Lancaster, R. K., Rees, W. E.1979. Bird communities and the structure of urban habitats, Canadian Journal of Zoology 57:2358-2368.
Lane, S. J., Fujioka, M.,1998. The impact of changes in irrigation practices on the distribution of foraging egrets and herons (Ardeidae) in rice fields of central Japan. Conservtion 183:221-230.
Lesley, J., Evans Ogden., Shabtai Bittman., David, B. Lank., F, Craig Stevenson., 2007. Factors infuluencing farmland habitat use by shorebirds wintering in the Fraser River Delta, Canada. Agriculture Ecosystems and Environment 124:252-258.
Losito, M.P., Baldassarre, G.A.,1995. Wetland use by breeding and postbreeding female mallards in the St. Lawrence River Valley.Wilson Bulletin 107:55-63.
Luis, A., Goss-Custard, J. D., Moreira, M.H.2002. The feeding strategy of the dunlin(CalidrisAlpine L.) in artificial and non-artificial habitats at Ria de Aveiro, Portugal. Hydrobiologia 475(1):335-343.
Ma, Z. J, Wang, Z. J., Tang, H. X.,1999. Habitat use and selection by red-crowned crane Grusjaponensisin winter in Yancheng Biosphere Reserve, China. Ibis.141:135-139.
Ma, Z. J., Tang, S. M., Lu, F. Chen, J. K.2002. Chongming Island:A less important shorebirds stopover site during southward migration. Stilt 41:35-37.
Ma, Z. J., Li, B., Zhao, B., Jing, K., Tang, S.M., Chen, J.K.,2004. Are artificial wetlands good alternatives to natural wetlands for waterbirds?-A case study on Chongming Island, China. Biodiversity and Conservation.13:333-350.
Ma, Z. J., Li, B., Li, W. J., Han, N. Y., Chen, J. K.,Watkinson, A.2009. Conflicts between biodiversity conservation and development in a bio-sphere reserve. Journal of Applied Ecology 46:527-535.
Ma, Z. J., Cai, Y. T., Li, B., Chen, J.K.2010. Managing wetland habitats for waterbirds:A international perspective. Wetland 30:15-27.
Maff, L., Oviedo, G., Larsen, P. B.,2000. Indigenous and traditional peoples of the world and eco-region conservation:an integrated approach to conserving the world's biological and cultural diversity. Switzerland, Gland, WWF Research Report No.145. Marzluff, J. M., Gelbach, F. R., Manwal, D. A.1998. Urban environments:influences on avifauna and challenges for the avian conservationist. In J.M. Marzluff and R. Sallabanks, Eds. Avian conservation:research and management. Island Press, Washington, D. C.
Marzluff, J. M., Bowman, R., Donnelly, R.2001. A historical perspective on urban bird research:trends, topics, and definitions. In:Marzluff, J. M. M Bowman, R., Donnelly, R. Eds Avian ecology and community in an urbanizing world. Kluwer, Norwell.
Masero, J. A., Perez-Hurtado, A., Castro, M., Arroyo, G. M.2000. Complementary use of intertidal Mudflats and adjacent Salinas by foraging waders. Ardea 88(2):177-191.
Matheu E., Hoyo J. D.1992. Family Threskiornithidae (Ibises and Spoonbills).In Hoyo J D, Elliot A, Sargatal J eds. Handbook of the birds of the world, Barcelona: Lynx Editions:472-507.
Mills, G. S., Dunning Jr, J. B., Bates, J. M.1989. Effects of urbanization on breeding bird community structure in southweatern desert habitats. Condor 91:416-428.
Miller, M. R., Garr, J. D., Coates, P. S.2010. Change in the status of harvested rice fields in the Sacramento valley, California; Implications for wintering waterfowl. Wetlands 30:939-947.
Milsom, T. P., Haskell, D. J., Langton, S. D., Mckay, H. V.1998. Design of grassland feeding areas for waders during winter:the relative importance of sward, landscape factors and human disturbance. Biological Conservation 84:119-129.
Mitchell, L. R., Gabrey, S., Marra, P. P., Erwin, R. M.,2006. Impacts of marsh management on coastal-marsh birds habitats. Studies in Avian Biology 32:155-175.
Mitsch, W. J., Wilson, R. F.,1996. Improving the success of wetlandcreation and restoration with know-how, time, and self-design. Ecological Applications 6:77-83.
Moores, N., Rogers, D. I., Kim, R. H., Hassell, C. J., Gosbell, K., Kim, S. A., Park, M. N.,2008.The 2006-2008 Saemangeum Shorebird Monitoring Program Report. Busan, Korea:Birds Korea.
Niu, J. Y., Zou, Y. A., Yuan, X., Zhang, B., Wang, T. H.2013. Waterbird Distribution patterns and environmentally impacted factors in reclaimed coastal wetlands of the eastern end of the Nanhui County, Shanghai, China. Acta Zoologica Academiae Scientiarum Hungaricae.59(2):171-185.
Nolet, B.A., Bevan, R.V., Klaassen, M., Langevoord, O., van der Heijden, Y.G.J.T., 2002. Habitat switching by Bewick's swans:maximization of average long-term energy gain. Journal of Animal Ecology 71:979-993.
Ntiamoa-Baidu, Y., Piersma, T., Wiersma, P., Poot, M., Battley, P., Gordon, C.1998. Water depth selection, daily feeding routines and diets of waterbirds in coastal lagoons in Ghana. Ibis 140:89-103.
Nyman, J. A., Chabreck, R. H.1995. Fire in coastal marshes:history andrecent concerns. Proceedings of the Annual Tall Timbers Fire Ecology Conference 19:134-141.
Ogden, J. C.1991. Nesting by wood storks in natural, altered, and artificial wetlands in central and northern Florida. Colonial Waterbirds 14:39-45.
Ogden, J. C.,1994. A comparison of wading bird nesting colony dynamics (1931-1946 and 1974-1989) as in indication of ecosystem conditions in the Southern Everglades. In:DavisSM, Ogden JC (eds) Everglades:The ecosystem and its restoration. St. Lucie, Delray Beach pp:533-570.
O'Neal, B. J., Heske, E. J., Stafford, J. D.,2008. Waterbird response to wetlands restored through the conservation reserve enhancement program.Journal of Wildlife Management 72:654-664.
Owen, M., Black, J. M.,1990. Waterfowl ecology. Blackie and Son Ltd., Glasgow. Paracuellos, M., Telleria, J. L.2004. Factors affecting the distribution of a waterbird community:the role of habitat configuration and bird abundance. Waterbirds 27:446-453.
Paracuellos, M.2006. How can habitats selection affect the use of a wetland complex by waterbirds? Biodiversity and Conservation 15:4569-4582.
Parsons, K.C.2002. Integrated management of waterbird habitats at impounded wetlands in Delaware Bay, USA. Waterbirds 25(suppl.2):25-41.
Piersma, T.2009. Threats to intertidal soft sediment ecosystems.57-69 in S,Rein-hard and H.Folmer, eds.Water policy in the Netherlands integrated management in a densely populated delta. Washington, DC:Resources for the Future.
Post, W.1998. Reproduction of least bitterns in a managed wetland. Colonial Waterbirds 21:268-273.
Powell, G. V. N.1987. Habitat us by wading birds in a subtropical estuary: implications of hydrography. The Auk 104:740-749.
Poysa, H.,1983. Resource utilization pattern and guild structure in a waterfowl community. Oikos 40:295-307.
Purdue, J. R., Haines, H.1977. Salt water tolerance and water turnover in the snowy plover. The Auk 94:248-255.
Pyrovetsi, M.1997. Integrated management to create new breeding habitat for Dalmatian pelicans (Pelecanuscrispus) in Greece. Environmental Management 21:657-667.
Rehfisch, M. M.,1994, Man-made lagoons and how their attractiveness to waders might be increased by manipulating the biomass of an insect benthos. Journal of Applied Ecology 31:383-401.
Rubega, M. A., Robinson, J. A.1997. Water salinization and shorebirds:emerging issues. International Wader Studies 9:45-54.
Sanchez-Zapata, J. A., Anadon, J. D., Carrete, M., Gimenez, A., Navarro, J., Villacorta, C., Botella, F.2005. Breeding waterbirds in relation to artificial pond attributes:implications for the design of irrigation facilities. Biodiversity and Conservation 14:1627-1639.
Scheffer, M., van Geest, G.J., Zimmer, K., Butler, M.G., Hanson, M.A.,Declerck, S., de Meester, L., Jeppesen, E., Sondergaard, M.2006. Small habitat size and isolation can promote species richness:second-order effects on biodiversity in shallow lakes and ponds.Oikos 112:227-231.
Shin, ichiSato, Mikio A.,2002. Ecologieal and Paleoecological implications of the rapid increase and decrease of an intro-duced bivalve Potamoeorbulasp after the construction of a reclamation dike in lsahayaBay, westernKyushU, Japan Palaeogeogra PhyPalaeo climatology Palaeoecology 185:369-378.
Spiiker. J., Vriend,S. P., Van Gaans P. F. M.,2005.Natural and anthropogenic Patterns Of covariance and spatial variability of minor and trace elements in agricultural topsoil.Geoderma 127:24-35.
Stapanian, M. A.,2003. Species density of waterbirds in offshore habitats in western Lake Erie. Journal of Field Ornithology 74:381-393.
Stralberg, D., Applegate, D. L., Phillips, S. J., Herzog, M. P., Nur, N., Warnock, N. 2009. Optimizing wetland restoration and management for avian communities using a mixed integer programming approach. Biological Conservation 142:94-109.
Stuyfzand, P. J.1995.The impact of land reclamation on ground water quality and future drinking water supply in the Netherlands.Water Science and Technology 31:47-57.
Thebault, J., Schraga, T. S., Cloern, J. E., Dunlavey, E. G.2008. Primary production and carrying capacity of former salt ponds after reconnection to San Francisco bay. Wetlands 28:841-851.
Tourenq, C., Bennetts, R. E., Kowalski, H., Vialet, E., Lucchesi, J. L., Kayser, Y. 2001. Are ricefields a good alternative to natural marshes for waterbird communities in the Camargue, southern France?. Biology Conservation 100:335-343.
Traut, A. H., Hosteler, M. E.2003. Urban lakes and waterbirds:effects of shoreline development
Traut, A. H., Hosteler, M. E.2004. Urban lakes and waterbirds:effects of shoreline development on avian distribution.Landscape and urban planning 69:69-85.
Ueng Y. T., Preng J. J., Wang J P.,2006. Diet of the Black-faced Spoonbill wintering at Chiku Wetland in southwestern Taiwan.Waterbirds 29 (2):185-190.
Untited Nations.1996. World urbanization prospects:the 1996 revision. United Nations, New York.
Vande Kam, J., Ens, B., Piersma, T., Zwarts, L.,2004. Shorebirds. An illustrated behavioural ecology. Utrecht, The Netherlands:KNNV Publishers.
Van Rees-Siewert, K. L., Dinsmore, J. J.,1996. Influence of wetland age on bird use of restored wetlands in Iowa. Wetlands 16:577-582.
Velasquez, C.R.,1992. Managing artificial saltpans as a waterbird habitat:species responses to water level manipulation. Colonial Waterbirds 15:43-55.
Velasquez, C.R., Hoekey, P.1992. The importance of supratidal foraging habitats for wadersat a south temperate cestuary. Ardea 80(2):243-253.
Viguria J. R., Irabienb M. J., Yustabl, I., Soto, J., Gomez, P., Rodriguez, M., Martinez-Madrid, M., Irabien, J. A., Coz, A.2007. Physico-chemieal and toxicological Characterization of the historic estuarine sediments:A multidisciplinary approach.Environment Intemational,33(4):436-444.
Warnock, N., Page, G. W., Ruhlen, T. D., Nur, N., Takekawa, J. Y, Hanson, J. T.2002. Management and conservation of San Francisco Bay saltponds:effects of pond salinity, area, tide, and season on Pacificflyway waterbirds. Waterbirds 25(Suppl. 2):79-92.
Wetlands International.2006. Waterbird population estimate. Fourth edition. Wageningen. The Netherlands:Wetlands International.
White, C. L., Main, M. B.,2005. Habitat value of golf course wetlands to waterbirds. USGA Turfgrass and Environmental Research 3(16):7-11.
Wiggins, G. B., Mackay, R. J., Smith, I. M.,1980. Evolutionary andecological strategies of animals in annual temporary pools. Archives of Hydrobiology Supplement 58:97-206.
Xu, J. L., Zhang, X. H., Zhang, Z. Z., Zheng, G. M., Ruan, X. F., Zhang, K. Y., Xi, B.2010. Breeding habitat selection of reeves's pheasant (Syrmaticus reevesii) in Dongzhai National Nature reserve, Henan province, China. Zoological Research 31:198-204
Yang, H. Y., Chen, B., Barter. M., Piersma, T., Zhou, C. F., Li, F. S., Zhang, Z. Z. 2011. Impacts of tidal land reclamation in Bohai Bay, China:ongoing losses of critical Yellow sea waterbird staging and wintering sites. Bird Conservation International 21:241-259.
Zhang, W., Liao, P., Wang, B.,2006. Study on the Impact of Reclamation onTidal Current in Caofeidian, Bohai Sea. Proceeding of the 15th Congress of APD-IAHR IITMadras. India 969-978.
Zedler, J. B., Linding-Cisneros.2002. Functional equivalency of restored and natural salt marshes.565-582. In M. P. Weinstein and D. A.Kreeger, editors. Concepts and controversies in tidal marsh ecology. Klumer Academic Publishers, Dordrecht, The Netherlands.