年内水热条件变化对冬候鸟数量时空分布特征的影响机制

环鄱阳湖湿地是东亚重要的冬候鸟栖息地,由于湿地内部分区接纳水源的不同,人为活动及地表类型的差异,使得该区冬候鸟数量的时空分布特征相对复杂。综合利用遥感数据、冬候鸟航空调查数据及气象观测数据,借助分区相关性统计分析方法,研究不同尺度环鄱阳湖湿地年内水热要素对冬候鸟数量时空分布特征的影响;通过水文要素之间的相关性分析以及地表温度的时空分布格局研究,探索水热要素之间的耦合关系,进而揭示鄱阳湖区年内水热条件变化对冬候鸟数量时空分布特征的影响机制。研究发现:12月份气温是影响鄱阳湖湿地冬候鸟数量时空分布特征的驱动因素;受分区农业及生态特征的影响,水文条件的年内变异成为影响鄱阳湖冬候鸟数量时空分布特征的决定因素。研究结果为环鄱阳湖湿地冬候鸟栖息地的保护提供决策依据。     

不同水位下拟建鄱阳湖水利枢纽对食块茎鸟类栖息地适宜性的影响研究

鄱阳湖为亚洲最大的候鸟栖息地,近十余年发生了枯水期提前且延长及湖区生态环境日益恶化的问题,对于此问题江西政府提出了一种科学的工程措施--鄱阳湖水利枢纽（简称枢纽）。然而,枢纽对越冬候鸟栖息地的影响尚无定量研究。以鄱阳湖食块茎鸟类--白鹤（Grus leucogeranus）、白枕鹤（Grus vipio）和小天鹅（Cygnus columbianus）的栖息地为研究对象,利用3S技术结合生态学知识,在ArcGIS平台上搭建了食块茎鸟类栖息地适宜性评价模型,使用二维水动力模型联合适宜性评价模型,生成鄱阳湖在兴建枢纽前、后的食块茎鸟类栖息地适宜性分布图。选取工程调度时期水位相对稳定时段,以鄱阳湖无枢纽状态下星子水位为基础,探究鄱阳湖在不同水位时,有拟建枢纽和无拟建枢纽状态下食块茎鸟类的栖息地适宜性的变化,定量分析拟建枢纽对候鸟栖息地适宜性造成的影响。研究发现：枢纽的调度规则具有一定的科学性,水位调度方案对湖泊食块茎鸟类越冬初期栖息产生的影响较小,但会牺牲一部分越冬后期适合食块茎鸟类栖息的区域。拟建枢纽选址处至都昌站的食块茎鸟类栖息地适宜性受枢纽的负面影响最为显著,各级自然保护区之中,北部省级候鸟自然保护区受其负面影响最大,此保护区将减少18.01-39.80 km²适合食块茎鸟类栖息的面积。但是枢纽的运行能增加湖泊土壤水含量,使食块茎鸟类更易于觅食,且能增加喜食块茎鸟类的食物丰富度。本研究可为为今后鄱阳湖湖区水环境规划和水生态管理维护提供一定的科学参考。     

鄱阳湖周边稻田对白鹤的承载力

鄱阳湖是世界重要的候鸟越冬地,承载了全球约98%的白鹤(Leucogeranus leucogeranus)。然而,近年来鄱阳湖沉水植被退化严重,白鹤的传统食物苦草(Vallisneria spp.)冬芽丰富度急剧减少。食物短缺导致白鹤的觅食生境由自然湿地的浅水生境转移至稻田、藕塘等人工生境,稻田在白鹤保护中发挥的作用日益突出。了解鄱阳湖周边稻田对白鹤的承载力可为白鹤的保护和管理提供科学依据。为此,调查了鄱阳湖周边稻田散落稻谷的生物量,测量了稻谷的营养成分,并利用遥感影像对鄱阳湖周边10 km范围内稻田的总面积进行估算,从而得出鄱阳湖周边稻田散落稻谷能提供的总能量。然后,计算稻田中以稻谷为主要食物的6种鸟类的日能量消耗,用以表示日能量摄入。最后,依据稻田能提供的总能量、鸟类的日能量摄入、鸟类的越冬时长、以及各种鸟类的数量占比,计算得出鄱阳湖周边稻田能承载的白鹤数量。结果表明,鄱阳湖周边稻田散落稻谷的生物量为6.494 g/m²,环鄱阳湖周边10 km范围内稻田的总面积为1984.46 km²,这些稻田能承载的鸟类总数量为140860只,其中能承载的白鹤数量为10775只,超过了全球白鹤的总数量(3500-4000只)。因此,鄱阳湖周边稻田能为白鹤等鸟类提供丰富的食物资源。     

Assessing the effects of habitat characteristics and co-occurrence with closely related species on occupancy of resident ‘wood-warblers’ in a Neotropical working landscape

The simultaneous effects of habitat traits and interspecific interactions determine the occurrence and habitat use of wildlife populations. However, little research has been devoted to examining spatial co-occurrence among closely related species while considering the effect of habitat variation and imperfect detectability of species in the field. In this study, we focused on migratory and resident 'wood-warblers' that coexist during the winter in a Neotropical working landscape in southern Mexico to understand if habitat occupancy of resident wood-warblers is influenced by habitat characteristics and by the presence of other species of resident and migratory wood-warblers. For this purpose, we implemented two-species occupancy models, which account for the imperfect detectability of these birds in the field. Our results revealed that habitat occupancy of resident wood-warblers was positively influenced by the presence of other closely related species (both migratory and resident). These positive relationships may be explained by the fact that different species of wood-warblers frequently participate in mixed-species flocks. However, these patterns of species co-occurrence were more evident among resident species than between migratory and resident species, which may be explained by micro-habitat segregation and differences in behaviours between resident and migratory wood-warblers. We also found that some habitat characteristics may mediate the observed patterns of species co-occurrence. Specifically, sites with larger trees were associated with the co-occurrence of some species of resident wood-warblers. In addition, we discuss the possibility that species co-occurrence might be the result of shared preferences for environmental factors that we did not consider. Our study highlights the importance of the interplay between species co-occurrence and habitat traits in determining the presence and habitat use of resident birds in Neotropical working landscapes.     

候鸟类型国家级自然保护区保护成效评估指标体系构建与案例研究

建立自然保护区是对生物多样性及其生境最直接、最有效的保护措施,构建一套科学、完整的国家级自然保护区保护成效评估指标体系,对促进国家级自然保护区的有效管理和宏观决策具有重要的意义。截止2014年3月,我国已建立407个国家级自然保护区,其中野生动物类型105个。尽管国家已投入大量的人力、物力和财力,但目前仍不清楚这些国家级自然保护区的保护成效如何,故很有必要对国家级自然保护区保护成效开展评估。基于保护目标物种,以10a为时间尺度,采用集成分析法、专家咨询法和示范研究法,率先构建了我国候鸟类型国家级自然保护区(第一保护对象为候鸟的野生动物类型国家级自然保护区)保护成效评估框架和指标体系,并用层次分析法(AHP)法对指标进行赋分。评估框架包含1个目标层、2个系统层(生态有效性评估,分值占60%;管理有效性评估,分值占40%)、9个因素层、36个指标层,另增加人为影响赋分区(-12分—+8分)。其中,生态有效性评估包含代表性、适宜性、稀有性、多样性、完整性共5个因素层及15个指标层;管理有效性评估包含管理对象、管理行动、管理保障、管理效果共4个因素层及21个指标层。为进一步验证与完善评估指标体系的科学性和可操作性,我们以青海湖国家级自然保护区和湖南东洞庭湖国家级自然保护区为案例进行了研究。结果表明:该评估指标体系具有良好的科学性和可操作性。近10年,青海湖国家级自然保护区在针对保护目标物种种群动态与生境的科研监测、宣传教育、野外巡护、社区共管方面的保护成效较好,但快速发展的生态旅游对候鸟的活动造成了一定的影响,建议加强生态旅游管理;湖南东洞庭湖国家级自然保护区在针对候鸟的宣传教育、野外巡护方面的保护成效较好,但土地管理权属的混乱使候鸟的生境遭到一定的破坏,建议进一步争取土地所有权和落实管理权,并通过发展生态旅游来提高当地居民收入,达到减少人为影响与恢复候鸟生境的目的。     

鄱阳湖南矶湿地优势植物群落及土壤有机质和营养元素分布特征

湿地植物和土壤是承担湿地诸多生态功能的主要基质和载体,相互之间有着强烈的影响。湿地土壤影响植物的种类、数量、生长发育、形态和分布,湿地植物又影响土壤中元素的分布与变化。鄱阳湖湿地的植物和土壤的特征及由他们带来的候鸟栖息地价值都受到他们之间的相互作用以及湖泊水位不同频率和幅度波动的影响。研究鄱阳湖湿地植物和土壤的特征及其形成原因和相互关系。为此,从2010年10月到2011年10月,对鄱阳湖湿地不同水位梯度下分布的芦苇、南荻、苔草、虉草和刚毛荸荠5个优势植物群落中57个定点样方展开了月度植被调查并且对5个不同植物群落下的135个土壤样品进行了实验室分析,研究了鄱阳湖优势植物群落及湿地土壤中有机质、全氮、全磷、全钾含量的分布特征及其相互关系。研究结果表明,鄱阳湖湿地优势植物群落分布特征受湿地土壤元素分布特征、湖面水位波动及植物生长特性和土壤沉积及土壤养分的综合影响,呈现了沿水位和海拔梯度明显的条带状或弧状分布、从湖岸到湖心依次分布为:狗牙根群落、芦苇群落、南荻群落、苔草群落、虉草群落、刚毛荸荠群落,最后是水生植物。同时植物群落的组成和分布特征也随季节性水位涨落的变化而变化;土壤有机质及其他各元素含量特征受植物群落分布、水位波动规律及湿地土壤特性等各种因素的影响,呈现出相对一致的分布规律,在0—20cm土壤层含量较高,20cm层后随土壤深度的增加含量逐渐减小,减小的速度先快后慢直至40cm层后趋于稳定;不同植物群落对土壤有机质、全氮、全磷、全钾的含量及变化具有很大的影响,不同植物群落下同种元素含量差异显著,并且各自随土壤深度和植物群落的变化呈现出层状、带状或弧状富集特征。不同植物群落对土壤养分元素含量影响程度不同,苔草群落对各元素吸收和滞留能力最强、影响最大,刚毛荸荠群落对土壤营养元素影响最弱。湿地植物群落和土壤之间彼此有着强烈的影响,其中植株的重量和土壤的SOC、TN及TP含量有非常显著的负相关关系,与土壤TK含量则有较强的正相关关系,同时,植株的重量和高度与土壤地下水埋深也有微弱的负相关关系。     

Effects of Local and Landscape Variables on Wetland Bird Habitat Use During Migration Through the Rainwater Basin

ABSTRACT Staging areas and migratory stopovers of wetland birds can function as geographic bottlenecks; common dependence among migratory wetland bird species on these sites has major implications for wetland conservation. Although 90% of playa wetlands in the Rainwater Basin (RWB) region of Nebraska, USA, have been destroyed, the area still provides essential stopover habitat for up to 10 million waterfowl each spring. Our objectives were to determine local (within wetland and immediate watershed) and landscape-scale factors influencing wetland bird abundance and species richness during spring migration at RWB playas. We surveyed 36–40 playas twice weekly in the RWB and observed approximately 1.6 million individual migratory wetland birds representing 72 species during spring migrations 2002–2004. We tested a priori hypotheses about whether local and landscape variables influenced overall species richness and abundance of geese, dabbling ducks, diving ducks, and shorebirds. Wetland area had a positive influence on goose abundance in all years, whereas percent emergent vegetation and hunting pressure had negative influences. Models predicting dabbling duck abundance differed among years; however, individual wetland area and area of semipermanent wetlands within 10 km of the study wetland consistently had a positive influence on dabbling duck abundance. Percent emergent vegetation also was a positive predictor of dabbling duck abundance in all years, indicating that wetlands with intermediate (50%) vegetation coverage have the greatest dabbling duck abundance. Shorebird abundance was positively influenced by wetland area and number of wetlands within 10 km and negatively influenced by water depth. Wetland area, water depth, and area of wetlands within 10 km were all equally important in models predicting overall species richness. Total species richness was positively influenced by wetland area and negatively influenced by water depth and area of semipermanent wetlands within 10 km. Avian species richness also was greatest in wetlands with intermediate vegetation coverage. Restoring playa hydrology should promote intermediate percent cover of emergent vegetation, which will increase use by dabbling ducks and shorebirds, and decrease snow goose (Chen caerulescens) use of these wetlands. We observed a reduction in dabbling duck abundance on wetlands open to spring snow goose hunting and recommend further investigation of the effects of this conservation order on nontarget species. Our results indicate that wildlife managers at migration stopover areas should conserve wetlands in complexes to meet the continuing and future habitat requirements of migratory birds, especially dabbling ducks, during spring migration.     

An inventory of the possible effects of climatic change on western palearctic migratory birds

This paper presents an assessment of the possible effects of future climatic change on migratory birds. The assessment is based on two approaches: firstly an inventory is made of the environmental factors that may change which directly affect migratory birds. These factors include physical (temperature, hydrology, ocean and air streaming patterns) as well as biological (floral and faunal composition of ecosystems) and landuse aspects of the environment.Secondly, these possible changes were related to the annual cycles of migratory birds in order to estimate the problems that different groups of migratory birds have to cope with at various stages in their annual cycle. It is concluded that many migratory bird species will be influenced by climatic change, leading to adaptations in the birds annual cycle. The biggest problems may arise for those birds which depend on wetlands, because many of these wetlands may dessicate.     

Overseas seed dispersal by migratory birds

Long-distance dispersal (LDD) promotes the colonization of isolated and remote habitats, and thus it has been proposed as a mechanism for explaining the distributions of many species. Birds are key LDD vectors for many sessile organisms such as plants, yet LDD beyond local and regional scales has never been directly observed nor quantified. By sampling birds caught while in migratory flight by GPS-tracked wild falcons, we show that migratory birds transport seeds over hundreds of kilometres and mediate dispersal from mainland to oceanic islands. Up to 1.2% of birds that reached a small island of the Canary Archipelago (Alegranza) during their migration from Europe to Sub-Saharan Africa carried seeds in their guts. The billions of birds making seasonal migrations each year may then transport millions of seeds. None of the plant species transported by the birds occurs in Alegranza and most do not occur on nearby Canary Islands, providing a direct example of the importance of environmental filters in hampering successful colonization by immigrant species. The constant propagule pressure generated by these LDD events might, nevertheless, explain the colonization of some islands. Hence, migratory birds can mediate rapid range expansion or shifts of many plant taxa and determine their distribution.     

Construction of a drainage channel at Inner Deep Bay, Hong Kong: mitigating ecological and landscape impact through an environmentally friendly design

In order to alleviate a flooding problem of the upper catchment area, it was proposed to construct a drainage channel across the fishponds of Inner Deep Bay which were considered as having high ecological value particularly for wetland birds. The potential loss of 34.6 ha of fishponds, which would be converted into the footprint of the drainage channel, was the major controversial issue of the environmental impact assessment study of the project even though an environmentally friendly design of the channel was proposed as a mitigation measure. Construction works were commenced in 1993 and completed in 1997. Post-construction monitoring of the drainage channel was conducted in 2001 and 2002 and its utilization by wetland birds was reported. The results indicated that the drainage channel with the unlined earth bottom and mangrove plantation provided a favorable habitat for wetland birds especially Ardeids and wintering ducks during low-tide periods. As the channel was connected to the estuary, its ecological function was similar to that of a tidal creek which promoted natural flushing and nutrient recycling. The exposed mudflat during low tide provided an important foraging habitat for wetland birds of the Inner Deep Bay area. The construction of the environmentally friendly drainage channel not only enhanced habitat diversity but also enriched the landscape element of the study area which used to be only fishponds in a homogeneous setting.     

江湖关系变化下雁类生境格局模拟及雁类种群的响应——以都昌保护区为例

2003年后江湖关系变化导致鄱阳湖湿地秋季快速退水,滩地提前出露,草洲面积不断扩张。1998—2020年环湖调查数据表明：越冬候鸟种群总量稳中有升,但雁类种群数量急剧增加。为分析候鸟生境及数量变化成因,从“水文-洲滩-植被-雁类”耦合关系入手,针对鄱阳湖雁类分布最为集中的都昌保护区,基于水动力模型分析了2003年前后保护区水域、洲滩的动态变化规律,根据洲滩梯次出露的特征,结合苔草(Carex spp.)、蓼子草(Polygonum criopolitanum)两种优势洲滩植物群落的淹水时长建立了反映高程梯度的生境适宜度评价模型(Habitat suitability index, HSI),结合鸿雁(Anser cygnoides)、豆雁(Anser fabalis)及白额雁(Anser albifrons)的数量变化分析了模型的敏感性。结果表明：2003年后,同一高程带洲滩在退水期的出露时间比2003年前提前约30 d, 2003年后相同日期的洲滩出露面积较2003年前增加约一倍。1990—2019年雁类生境适宜度指数(HSI)分值总体呈增加态势。9—12 m不同高程带洲滩的出露时间...     

Landscape‐scale habitat availability,and not local geography,predicts migratory landbird stopover across the Gulf of Maine

While it is clear that many migratory behaviors are shared across taxa, generalizable models that predict the distribution and abundance of migrating taxa at the landscape scale are rare. In migratory landbirds, ephemeral concentrations of refueling birds indicate that individual behaviors sometimes produce large epiphenomena in particular geographic locations. Identifying landscape factors that predict the distribution and abundance of birds during migratory stopover will both improve our understanding of the migratory process and assist in broad, regionally relevant conservation. In this study we used autumnal passerine stopover data from a five‐year period and eleven stopover sites across coastal Maine, USA, to test four broad hypotheses of migrant distribution and abundance that have been supported in other regions: a) the community characteristics of the pool of potential migrants, b) a site's local geography, c) landscape composition and configuration measured at different spatial scales, and d) interactions between these factors. Our final model revealed that birds concentrate at ‘habitat islands’, sites that possess a disproportionate percentage of the vegetated habitat in the 4‐km surrounding landscape. The strength of this pattern, however, was inversely proportional to a species' remaining migratory distance. Our results corroborate several studies that emphasize the importance of land cover composition at finer spatial scales (< 80 km²) for predicting the stopover distribution and abundances of migratory birds. This suggests that different migrants likely assess stopover sites with similar mechanisms along their migratory route, and these commonalities may be broadly applied to identify stopover locations of conservation importance across the continent.     

Synergistic changes in river-lake runoff systems in the Yangtze River basin and their driving force differences

Climate change and human activities simultaneously alter river–lake relationships. Determining the dynamics of river–lake runoff systems on multiple time scales and their differences in response to driving forces can provide insights into hydrological processes and water resource management. This study investigates the synergistic evolution of river–lake runoff systems in the middle and lower reaches of the Yangtze River basin (MLYR) using the cross-wavelet transform method. The effects of different driving force changes on river–lake runoff regimes are quantified based on the Budyko hypothesis, and an InVEST model is developed to assess the spatial and temporal patterns of habitat quality. The results indicate that during the variation period, the runoff distributions of the Yangtze River–Dongting Lake and Yangtze River–-Poyang Lake runoff systems are both skewed towards lower values in the flood seasons compared with those in the base period. The storage of lakes mitigates the extent of human disturbance to the mainstream hydrological regime, particularly under extremely low conditions. From 1960 to 2021, five significant resonance periods are indicated in the river–lake runoff system, and the phase–angle relationships indicate a positive phase coupling between the lake and mainstream hydrological regimes, with the lake lagging behind the mainstream; however, this interaction tends to weaken. In the mainstream and Dongting Lake basins, subsurface conditions are the dominant factor contributing to runoff variability, with contributions ranging from 50.9% to 72.6%; in the Poyang Lake basin, precipitation is the dominant factor, with a contribution of 50.6%; and in the Han River basin, changes in the potential evapotranspiration contribute to 50.6% of runoff variability. The proportion of high habitat quality in the MLYR is approximately 52%, the Dongting and Poyang Lake basins indicate a high habitat quality rating. However, frequent human activity is the main reason of conversion from higher habitats to lower ones, which may result in wetland habitat degradation.     

Noncrop features and heterogeneity mediate overwintering bird diversity in agricultural landscapes of southwest China

Farmland birds are of conservation concerns around the world. In China, conservation management has focused primarily on natural habitats, whereas little attention has been given to agricultural landscapes. Although agricultural land use is intensive in China, environmental heterogeneity can be highly variable in some regions due to variations in crop and noncrop elements within a landscape. We examined how noncrop heterogeneity, crop heterogeneity, and noncrop features (noncrop vegetation and water body such as open water) influenced species richness and abundance of all birds as well as three functional groups (woodland species, agricultural land species, and agricultural wetland species) in the paddy‐dominated landscapes of Erhai water basin situated in northwest Yunnan, China. Birds, crop, and noncrop vegetation surveys in twenty 1 km × 1 km landscape plots were conducted during the winter season (from 2014 to 2015). The results revealed that bird community compositions were best explained by amounts of noncrop vegetation and compositional heterogeneity of noncrop habitat (Shannon–Wiener index). Both variables also had a positive effect on richness and abundance of woodland species. Richness of agricultural wetland species increased with increasing areas of water bodies within the landscape plot. Richness of total species was also greater in the landscapes characterized by larger areas of water bodies, high proportion of noncrop vegetation, high compositional heterogeneity of noncrop habitat, or small field patches (high crop configurational heterogeneity). Crop compositional heterogeneity did not show significant effects neither on the whole community (all birds) nor on any of the three functional groups considered. These findings suggest that total bird diversity and some functional groups, especially woodland species, would benefit from increases in the proportion of noncrop features such as woody vegetation and water bodies as well as compositional heterogeneity of noncrop features within landscape.     

Global patterns and predictors of avian population density

Aim

How population density varies across animal species in the context of environmental gradients, and associated migratory strategies, remains poorly understood. The recent influx of avian trait data and population density estimates allows these patterns to be described and explored in unprecedented detail. This study aims to identify the main macroecological drivers of population density in birds.

Location

Global.

Time period

1970–2021.

Major taxa studied

Birds (Aves).

Methods

We collated a dataset of 5072 local population density estimates for 1853 species and modelled population density as a function of trait and environmental predictors in a Bayesian framework accounting for phylogenetic and spatial autocorrelation. We explored the influence of body mass, diet, primary lifestyle, mating system, nesting behaviour, territoriality, and migratory behaviour on population density, accounting for a range of environmental variables, including preferred habitat type, primary productivity, precipitation and temperature. Based on this empirical baseline, we then predicted the mean population density for 9089 species of birds and estimated global geographic patterns of bird population density.

Results

Population density was lower in species with larger body mass and higher trophic levels, and also declined in territorial species, migratory species, brood parasites and species inhabiting resource-poor habitat types (e.g., deserts). Conversely, population density increased in cooperative breeders. Environmental drivers were most influential for migratory birds, with precipitation and temperature both associated with higher population density. Overall, bird population densities were higher at lower latitudes.

Main conclusions

Our results support previous findings on the role of body mass, diet and environmental gradients, but also reveal novel species-specific drivers of avian densities related to reproduction, migration and resource-holding behaviour. Substantial fine-scale variation remains unexplained. We provide a global dataset of population density predictions for use in macroecological analyses and conservation assessments.     

Predicted Effect of Landscape Position on Wildlife Habitat Value of Conservation Reserve Enhancement Program Wetlands in a Tile‐drained Agricultural Region

Justification for investment in restored or constructed wetland projects are often based on presumed net increases in ecosystem services. However, quantitative assessment of performance metrics is often difficult and restricted to a single objective. More comprehensive performance assessments could help inform decision‐makers about trade‐offs in services provided by alternative restoration program design attributes. The primary goal of the Iowa Conservation Reserve Enhancement Program is to establish wetlands that efficiently remove nitrates from tile‐drained agricultural landscapes. A secondary objective is provision of wildlife habitat. We used existing wildlife habitat models to compare relative net change in potential wildlife habitat value for four alternative landscape positions of wetlands within the watershed. Predicted species richness and habitat value for birds, mammals, amphibians, and reptiles generally increased as the wetland position moved lower in the watershed. However, predicted average net increase between pre‐ and post‐project value was dependent on taxonomic group. The increased average wetland area and changes in surrounding upland habitat composition among landscape positions were responsible for these differences. Net change in predicted densities of several grassland bird species at the four landscape positions was variable and species‐dependent. Predicted waterfowl breeding activity was greater for lower drainage position wetlands. Although our models are simplistic and provide only a predictive index of potential habitat value, we believe such assessment exercises can provide a tool for coarse‐level comparisons of alternative proposed project attributes and a basis for constructing informed hypotheses in auxiliary empirical field studies.     

Causality between abundance and diversity is weak for wintering migratory waterbirds

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