天津地区迁徙水鸟群落的季节动态及种间相关性分析

对天津地区迁徙水鸟群落的季节变化及迁徙物种间种群数量变化的相关性进行了研究.以每个调查日为聚类实体,以每日调查记录到的每个物种的数量为变量,采用聚类分析法分别对秋季和春季(1998～1999年)的水鸟群落的时间结构进行了聚类分析,得到以下结论秋季天津地区水鸟群落组成按时间顺序大致可以分为4个阶段,分别为9月20日～10月11日、10月16日～10日25日、11月3日～11月20日及11月26日～12月10日;春季也可分为4个阶段,分别为3月7日～3月10日、3月11日～3月14日、3月15日～3月21日及3月25日～4月21日.秋季各种水鸟迁经天津的时间较为集中,大部分种类在11月中、下旬的20多天内进入天津,而春季水鸟群落则大致可分为3月的雁鸭类高峰期和4月的鸻鹬类高峰期.对10种鸭类和10种鸻鹬类进行种间种群数量随时间变化的相关性分析表明,在45个鸭类配对中,有24对呈负相关,21对则呈正相关;在21种正相关的配对中,12对为显著正相关(P<0.05),其中6对为极显著正相关(P<0.001).在45对鸻鹬类配对中,有20对呈负相关, 25对呈正相关.在25对正相关的配对中,有10对显著正相关,其中2对呈极显著正相关.白秋沙鸭(Mergus albellus)、针尾鸭(Anas acuta)、绿翅鸭(A. Crecca)、黑尾塍鹬(Limosa limosa)与其他多个物种的正相关性显著.     

基于环志数据探讨兴凯湖水鸟的迁徙规律

黑龙江兴凯湖位于中俄交界,该地区水鸟的迁徙路线及其保护状况受到我国及相邻国家政府和保护组织的高度关注。我们整理了兴凯湖水鸟的环志回收数据,对水鸟的迁徙规律进行了分析。结果表明,从2010年至2019年兴凯湖共环志鹤鹳类和雁鸭类968只,回收记录共29只次,其中白枕鹤(Grus vipio)6只次、东方白鹳(Ciconia boyciana)8只次、斑嘴鸭(Anas poecilorhyncha)3只次、绿头鸭(A.platyrhynchos)3只次、琵嘴鸭(A. clypeata)7只次、凤头潜鸭(Aythya fuligula)1只次和豆雁(Anser fabalis)1只次。水鸟环志回收数据揭示了兴凯湖鹤鹳类和雁鸭类的主要迁徙规律,证实了兴凯湖作为东北亚水鸟迁徙廊道的重要性,为我国与相邻国家开展水鸟的联合保护提供科学依据。     

北京野生水鸟迁徙规律及其监测策略初探

2005年全球暴发的禽流感疫情备受世界关注,候鸟带毒且野生水鸟是禽流感病毒的天然储库已被世界公认,我国野生动物疫源疫病监测工作已被提到重要议事日程.通过对2006～2008年监测数据的分析,发现北京市野生水鸟春季迁徙从2月下旬开始,4月初达到迁徙高峰;9月下旬开始秋季南迁,11月下旬达到迁徙高峰.并分别对北京地区雁鸭类、鹬鸻类、鹭类的迁徙规律进行了分析;根据北京的气候特点分析了野生水鸟的分布和迁徙特点;根据禽流感病毒与温度的关系,提出了北京的重点监测时期及物种.     

杭州湾及钱塘江河口水鸟群落组成、季节动态及种间相关性分析

2007年7月-2010年11月,对杭州湾曹娥江口至甬江口间潮间带及其附近海涂水库的水鸟群落进行定期监测,共记录9目18科128种.其中,候鸟119种,占总数的93％;而国家重点保护鸟类11种.对13种鸻鹬类和9种鸭类进行种群数量随时间变化的种间相关性分析,两个类群各有21对和23对显著相关.通过对水鸟季节动态及其迁徙模式分析,将其迁徙过程分为6个阶段,即:4月上旬-5月中旬、7月下旬-9月下旬(旅鸟迁徙高峰期)、2月下旬-3月下旬、10月上旬-12月中旬(冬候鸟迁徙高峰期)、12月下旬-次年2月中旬(越冬期)和5月下旬-7月中旬(繁殖期).种间吸引作用可能是影响该区域迁徙季节鸻鹬类和越冬地鸭类群落组成的重要原因,而该区域特殊地理位置和水鸟群落构成可能是造成鸻鹬类春秋季迁徙高峰数量巨大差异的主要因素.     

内蒙古图牧吉国家级自然保护区水鸟的资源状况

2014年5月—2015年4月,对内蒙古图牧吉国家级自然保护区水鸟群落特征和时空分布的特点,以及迁徙状况进行了研究,以期开展对鸟类资源及其栖息环境的保护。根据保护区地形和水系分布特点,选择了27个水鸟集中分布的地点,每月调查1次,共调查12次。共记录到水鸟7目14科58种。保护区4月水鸟数量达到全年的最高值,5—8月水鸟数量和种类随之降低;10月水鸟数量明显增加;12月至翌年3月,保护区除了大鸨Otis tarda,几乎看不到其他水鸟。大鸨数量的高峰期出现在晚冬2月和春季迁徙季节(3—5月)。保护区春、秋季的主要物种是雁鸭类,水鸟数量和多样性的变化与雁鸭类的种类和数量变化密切相关,这些水鸟主要分布在图牧吉泡子、三道泡子和东泡子等地,当地拥有大面积的沼泽如芦苇沼泽和苔草沼泽,是雁鸭类取食和栖息的理想场所。环志回收的结果表明:保护区繁殖的白枕鹤Grus vipio和丹顶鹤G.japonensis分别在日本鹿儿岛和我国江苏盐城越冬;繁殖的部分苍鹭Ardea cinerea个体在浙江舟山地区越冬;部分在黑龙江省兴凯湖繁殖的东方白鹳Ciconia boyciana在越冬地找到配偶,一起迁徙到保护区进行繁殖。     

黄河中上游春季迁徙期水鸟群落及大天鹅活动特征

2015年3月和2016年4月,分别对黄河中上游迁徙期的水鸟资源与大天鹅(Cygnus cygnus)的栖息地进行了调查,旨在掌握黄河中上游春季迁徙期水鸟的资源现状以及大天鹅的活动特征。根据黄河湿地植被和水系分布状况,沿着黄河自西部磴口县至东部土默特右旗进行调查。采用核密度分析法(KDE)计算了大天鹅日间和夜间活动区面积,以及增强型植被指数(EVI)分析了活动区内的栖息地特征。共记录到37种25671只水鸟,其中雁鸭类占水鸟总数的89.6%,特别是大天鹅和小天鹅(C.columbianus)数量较多。内蒙古段黄河是大天鹅春季迁徙重要停歇地之一,大天鹅在此停留时间长((27.23±8.96)d,n=56),日间栖息地和夜宿地基本相似。90%以内区域的EVI值均较低,50%活动区域明显低于50%~90%区域。黄河及农田蓄水而成的河漫滩为大天鹅提供了充足的食物,栖息地隐蔽性较强,适宜大天鹅等水鸟在此长期栖息。     

不同尺度下停歇点湿地对迁徙水鸟的影响研究综述

停歇点湿地是迁徙水鸟重要的能量补给地,在水鸟每年的往返迁徙过程中具有十分重要的生态意义。近年来随着全球变化和人类活动增加,迁飞路线上的停歇点湿地正发生剧烈变化。各个停歇点湿地的生境变化及周围环境不仅是影响水鸟栖息地适宜性的重要因素,还改变了各路线上迁徙水鸟的种群大小和群落多样性。分析不同尺度下停歇点湿地影响迁徙水鸟种群变化的主要生态因子和环境因素,不仅有助于理解各停歇点景观变化的生态效应,也可为迁徙水鸟种群保护提供理论支持。首先分析了在栖息地斑块尺度上停歇点湿地内的水、食物、栖息地格局和人类干扰等生态要素对水鸟觅食和栖息活动的影响;其次,分析了景观尺度上湿地周围的气候变化、土地利用和外来生物等环境条件在各停歇点对水鸟栖息地质量的改变;最后,基于多尺度条件下湿地影响因素的耦合效应,分析了当前湿地生境与水鸟种群关系研究中存在的主要问题,并总结了对湿地和水鸟保护的启示。     

汉江中上游湿地冬季水鸟资源调查

汉江中上游河道冬季水鸟共30种,隶属7目7科。其中,冬候鸟15种,留鸟8种,占73.3%,旅鸟7种。调查分析表明:独特的动物地理区系和优越的湿地环境使汉水中上游流域成为重要的鸟类越冬地及迁徙中转地,由此形成了该地特殊的冬季鸟类结构。     

青海可鲁克湖水鸟季节动态及渔鸥活动区分析

2008-2010年,对青海可鲁克湖的水鸟季节动态进行了调查。共记录到54种34828只水鸟,隶属于6目11科,雁鸭类水鸟最多,共统计到28445只,占水鸟总数的81.7%;其次是鸥类和鸻鹬类。可鲁克湖在水鸟春秋季迁徙高峰期在4月和10月,这也是水鸟多样性较高的两个月,其主要原因是由于迁徙鸭类数量和种类的增加。卫星跟踪表明,可鲁克湖是青海湖繁殖渔鸥重要的停歇地,渔鸥在可鲁克湖的停歇天数每年也有所不同,2007年和2008年秋季较2006年停歇时间短一些,初步判断与当地的人为干扰有关。当地政府对道路进行修建,其正好位于渔鸥的活动区内,这对渔鸥的日常活动造成较大影响,迫使渔鸥提前离开可鲁克湖。春季停歇天数的不同主要与青海湖面冰融的时间有关,若青海湖由于温度较高,冰融的时间早一些,渔鸥可能提前离开可鲁克湖,前往青海湖进行繁殖活动。     

2010-2019年不同海湾迁徙水鸟栖息地适宜性变化对比研究

滨海湿地是迁徙水鸟的重要迁飞通道和主要栖息地,评估沿海迁徙水鸟栖息地适宜性及变化态势能为栖息地的合理规划与管理提供科学参考,对迁徙水鸟的保护有重要意义。选择紧邻城市和乡村的深圳湾和雷州湾为研究区,在水鸟栖息地生态系统类型分类的基础上,通过层次分析法确定水鸟栖息地适宜性评价因子,设计栖息地、食物、水分、人类干扰条件及其子类的权重,对栖息地适宜性进行等级划分,分析比较2010-2019年迁徙水鸟栖息地适宜性的时空分布差异,探索适宜性变化差异的原因并给出合理化建议。结果表明：（1）2010-2019年深圳湾有193.4 hm²强干扰区域转变化为中等及弱干扰;雷州湾有16.36 hm²的中等干扰转化为弱、无干扰;（2）深圳湾栖息地适宜性以中等适宜类型为主,2010年和2019年面积占比分别为83.74%和88.71%;雷州湾栖息地适宜性主要以较适宜和中等适宜类型为主,2010年面积占比为86.72%,2010-2019年面积占比基本不变,总体适宜性高于深圳湾。（3）2010-2019年,深圳湾不适宜和较适宜面积分别减少245.54 hm²和26.37 hm²,均转化为中等适宜类型;雷州湾有24.31 hm²的中等和较适宜栖息地转化为适宜类型。     

微山湖鸟类多样性特征及其影响因子

2010年10月至2011年9月期间,使用样线法对微山湖鸟类多样性进行研究.共发现鸟类132种,隶属13目39科,其中留鸟39种,夏候鸟33种,冬候鸟14种,旅鸟46种,分别占全部种类的29.6％、25.0％、10.6％和34.85％;国家二级保护鸟类有12种,省级重点保护鸟类16种,另外50种和16种鸟类分别列入中日、中澳候鸟保护协定.灰鹤、乌雕、沙鵖和白顶鵖4种鸟类在南四湖首次记录.根据微山湖的地理和植被状况,将研究区域划分为水域、次生林、农田和居民区4生境,不同生境中鸟类群落的Shannon-Wiener指数高低为沼泽水域＞次生林＞农田＞居民区,Pielou指数高低为沼泽水域＞农田＞次生林＞居民区.次生林和农田鸟类群落的相似性指数最高,沼泽水域与居民区的相似性最低.春季末期鸟类多样性指数和均匀性指数最高,秋季末期最低.冬季鸟类种类最多、密度最大,春初鸟类种类最少、密度最小.距居民区的距离、距公路的距离、植被盖度、人工池塘数目、水面积比例和深水面积比例等对鸟类多样性影响显著.     

Geographical and environmental factors affecting the distribution of wintering black storks Ciconia nigra in the Iberian Peninsula

Here we explore the environmental and geographical factors affecting the winter distribution of the black stork Ciconia nigra in the Iberian Peninsula, where an increasing number of individuals have remained to winter in the last two decades. We recorded 179 locations of 54 ringed individuals between 1988 and 2011 to map the species habitat suitability with MaxEnt, a machine‐learning technique based on the principle of maximum entropy. The migratory movements of 25 birds equipped with satellite transmitters were used to define the autumnal migratory flyway used by most storks crossing the Peninsula as well as to define the wintering period. The aim was to test if the number of wintering storks was positively correlated to habitat suitability and negatively correlated to the flyway distance. Data provided by an extensive count across Portugal and Spain during the 2012–2013 winter supported the findings that black storks were more abundant in areas of high habitat suitability close to the migratory flyway. This agrees with previous evidence on the role of migratory flyways in determining the distribution of some wintering birds in Iberia. A gap analysis reflected that just 12.3% of the suitable areas and 18.8% of individuals recorded during the 2012–2013 winter were included within the Special Protection Areas network of Portugal and Spain. Most of these birds were crowded in unprotected areas covered by rice fields (68% of individuals), a key habitat for the species.     

The effect of water availability on fuel deposition of two staging Sylvia warblers

In order to succeed in crossing extensive ecological barriers, migratory birds usually deposit fuel en route. High rates of fuel deposition may enable birds to shorten their total migration time and are therefore advantageous for time‐minimizing migrants. Several studies have suggested that water provision may increase food utilization in non‐migratory birds. The goal of this study was to test the influence of water availability on the fuel deposition of en route migratory passerines. We studied fuel deposition of blackcaps Sylvia atricapilla and lesser whitethroats S. curruca staging in a plantation of Mount Atlas gum‐tree Pistacia atlantica in the northern Negev desert, Israel, during the autumns of 2000 and 2002. We manipulated water availability at the site and measured the effect of water supplementation on fuel deposition of birds of both species. We found that when water was available, blackcaps had higher fuel loads and higher fuel deposition rates than during control trials. However, water availability had no effect on fuel deposition of lesser whitethroats. Species‐specific differences in adaptations to arid conditions, reflected in the species’ winter habitat preferences, may be responsible for the between‐species dissimilarity in responding to water provision. We suggest that water availability may have strong ecological and evolutionary consequences for birds migrating through arid environments, by its possible effect on bird behavior and physiology.     

Does migration promote or restrict circumpolar breeding ranges of arctic birds?

Aim Migration has been suggested to promote large breeding ranges among birds because of the greater mobility of migratory compared with non‐migratory species, but migration has also been suggested to restrict breeding ranges because of evolutionary constraints imposed by the genetically based migration control programme. We aim to investigate the association between migration and the breeding ranges of both land birds and pelagic birds breeding in the Arctic region. Location The Arctic region. Methods Information on breeding and wintering ranges and migratory status of bird species breeding in the arctic tundra biome was compiled from the literature. The association between breeding range, migration distance and primary winter habitat was tested using multivariate generalized linear models and pair‐wise Mann–Whitney U‐tests. Phylogenetic effects were tested for using Mantel’s permutation tests. Results We found different relationships depending on the species’ major winter habitat. Among birds that are pelagic during winter, long‐distance migrants have the largest breeding ranges, while among terrestrial birds, residents and short‐distance migrants have the largest breeding ranges. Breeding ranges of coastal birds of all migratory distance classes are comparatively restricted. Main conclusions As a new explanation for this pattern we suggest that the possibility of colonizing large winter ranges is a key factor for the subsequent expansion of breeding ranges in arctic bird communities and possibly also in bird communities of other regions of the world. Because of the reversal in the relative extent of continents and oceans between the hemispheres, longitudinally wide winter ranges are more likely for long‐distance than short‐distance migrants among pelagic birds, while the reverse holds true for birds that use terrestrial winter habitats. For coastal birds both continents and oceans form barriers restricting colonization of extensive winter quarters and consequently also of extensive breeding ranges, regardless of the distance to the winter quarters.     

Demographic and spatial responses of resident bird populations to the arrival of migratory birds within an urban environment

Long-distance migration allows many bird species to overcome the severe climatic changes that occur in seasonal environments. Migration is highly demanding, and given its cyclical nature, we currently know that it has substantial effects on the population parameters of migratory birds during both breeding and wintering seasons. However, the potential effects of the presence of migratory birds in their wintering grounds on populations of resident birds have remain largely unexplored. Here, we propose the hypothesis that migratory birds negatively affect the habitat occupancy and population abundance of resident birds because of the arrival of numerous individuals during the most limiting months of the year. Here, we studied different species of migratory and resident birds that coexist during winter in an urban ecological reserve located within Mexico City. We used single-species multiseason occupancy models, two-species occupancy models, and distance sampling techniques to evaluate changes in occupancy and population density of resident bird species during three consecutive winters. We found an aggregation pattern between two resident species (Psaltriparus minimus and Thryomanes bewickii) with three migratory warblers (Cardellina pusilla, Setophaga coronata and Setophaga townsendi). Thus, our results provide evidence of the formation of mixed-species flocks in our study area. We also conclude that resident birds experience different demographic and behavioral processes during winter that not necessarily result from interspecific interactions with migratory birds.     

Orientation and navigation of migrating birds

The question of how migrating birds find their way to winter quarters and back has fascinated humans since the beginning of scientific research into avian biology. Migrating birds have been shown to possess compass systems that allow them to select and maintain certain compass directions. Three such systems are known, solar, stellar and magnetic. Their details are not quite clear and need further research. Hierarchy and interaction of compass systems of migrating birds are poorly studied; different species may vary in this respect. During migration, birds learn to use maps that make true navigation possible, i.e. to detect their position relatively to the goal of movement. The physical nature of navigational maps is an object of intensive research; currently the most promising concepts are the geomagnetic and possibly olfactory maps. A significant contribution to the study of formation of navigational maps was made by Soviet/Russian researchers, whose work was published in Zoologicheskii Zhurnal (Sokolov et al., 1984). Migrating birds have no innate map, and first-autumn individuals reach their species-specific wintering areas by using compass sense and counting time that should be spent moving in certain genetically fixed directions. However, in recent years more and more data surface that suggest that juveniles (maybe not of all species) do have some mechanism of controlling their position on the migratory route that allows them to compensate for errors of the spatio-temporal programme of migration.     

Ground-feeding migratory songbirds as cellular slime mold distribution vectors

Cosmopolitan species of cellular slime molds occur continents apart in both tropical and temperate zones of the world though the spore masses are too heavy to be wind borne, and water dispersal is limited to the watercourses. A highly mobile distribution vector was found in ground-feeding migratory song birds. Nine ubiquitous species and 2 ecologicially distinct species of dictyostelid cellular slime molds were isolated from the feces of ground-feeding eastern North American migratory thrushes, finches, sparrows and warblers, both on breeding and winter grounds. Three propagules of slime molds, amoebae, spores and macrocysts survive passage through the avian digesive tract and remain in the gut long enough to be transported by major bird migrations. Habitats with the greates species diversity of both cellular slime molds and ground-feeding passerines concur in both eastern North America and Central America. Birds actively seek their prefered habitats; the cellular slime molds have arrived at these habitats as passengers. Rare slime molds can serve as a marker to the habitats that migratory birds have visited, or birds with known habitats can provide clues as to the distribution of rare species of cellular slime molds.     

The role of migration for spatial turnover of arctic bird species in a circumpolar perspective

Several different factors may determine where species range limits are located within regions of otherwise continuously available habitat and suitable climate. Within the Arctic tundra biome many bird species are migratory and their breeding distributions are affected by migration routes that are in turn limited by factors such as suitable winter habitat, migratory stopover sites, geographical barriers and historical routes of colonization. We identified longitudinal zones in the circumpolar Arctic of pronounced changes in the avian species composition (high species spatial turnover; ‘species divides’). We tested for the association between migratory status and the geographical location and numbers of such species divides for species with non‐breeding habitats mainly within terrestrial, pelagic and coastal ecosystems. Our results demonstrate that migration is of profound importance for both the number and locations of species divides in the Arctic. Long‐distance migration is associated with a large number of divides among terrestrial and coastal arctic birds but with a reduced number of divides among pelagic birds. We suggest that long‐distance migration permits pelagic but not terrestrial and coastal birds to colonize large winter ranges, which in turn causes expansion of breeding ranges, with more homogenous communities and reduction of species divides as consequences, among the long‐distance migrants of pelagic but not of terrestrial and coastal birds. Furthermore, the divides among long‐distance migrants are situated in two main regions, the Beringia and Greenland zones, while divides among short‐distance migrants are more evenly spaced throughout the circumpolar Arctic. The Beringia and Greenland divides result largely from inter‐continental colonization of new breeding ranges but retainment of original winter quarters in a process of evolution through extension of migration routes, leading to aggregated divides in the meeting zones of major global flyways.     

Do migratory pathways affect the regional abundance of wintering birds? A test in northern Spain

Aim The abundance distribution of organisms at regional scales is commonly interpreted as the result of spatial variation in habitat suitability. However, the possibility that geography itself may affect patterns of distribution has received less attention. For example, the abundance of wintering bird populations might be influenced by the cost of reaching areas located far away from the main migratory pathways. We studied the abundance distribution of three common migratory passerines (meadow pipits, Anthus pratensis; common chaffinches, Fringilla coelebs; and European robins, Erithacus rubecula) wintering in farmlands located in the 600‐km long Cantabrian coastal sector of northern Spain, roughly perpendicular to the west Pyrenean migratory pathway that drives European migrant birds into the Iberian Peninsula. Location The study area occupies a belt located between the Atlantic coast and the Cantabrian Mountains in northern Spain. Methods We counted wintering and breeding birds and measured the structure of vegetation and environmental variables (altitude, rainfall, temperature) in 68 farmlands distributed at different distances from the west Pyrenean migratory flyway. We also studied the distribution of birds ringed in central and northern Europe and recovered in the study area between October and February. Analyses were based on single univariate statistics (chi‐square tests), ordination by principal components analysis and multiple regression. Results Controlling for the effects of climate, vegetation structure and local abundance of breeding conspecifics, the winter abundance of all three species decreased with the distance from their main migratory route in the western Pyrenees. Such patterns fitted well to the observed distribution of ringing recoveries. Main conclusions Our results support a link between the movements of birds along the Pyrenean migratory pathway and their winter abundance in northern Spain. According to this view, the sectors located near the migratory pathway seem to be more easily occupied by migrants, supporting the idea that proximity to passage areas may explain the fine‐grain regional patterning of species abundance in wintering grounds.