云南大山包越冬黑颈鹤迁徙路线的卫星跟踪

2005年2月26日和3月1日在云南省昭通大山包黑颈鹤国家级自然保护区，分别为4只越冬黑颈鹤佩戴卫星信号发射器（PTTs），跟踪研究其迁徙路线和迁徙停歇地。2005年春季迁徙中，有2只跟踪黑颈鹤到达繁殖地，其中1只黑颈鹤在2005年11月和2006年3月分别完成从繁殖地返回越冬地和从越冬地再次到达繁殖地的迁徙过程。2只春季迁徙黑颈鹤的迁徙路线大致相同——沿着长江上游金沙江、大渡河一直向北到达黄河上游白河及黑河沿岸若尔盖湿地内。春季迁徙过程中，途中停歇3—4次，总迁徙距离是674—713 km，迁徙全程所用时间3—4天。秋季迁徙全程所用时间8天。在4个PTTs工作期间，共确定有13个黑颈鹤迁徙停歇地，其中11个停歇地在河流滩地；其他2个停歇地在高山湖泊附近。总体上，黑颈鹤一般选择海拔在1 900 m以上湖泊、河流等湿地内，距离耕地较近且人、畜干扰较少的栖息地停歇。     

东亚-澳大利西亚候鸟迁飞区中杓鹬 的迁徙追踪

追踪候鸟的迁徙活动是全面认识其生活史年周期的重要途径。中杓鹬(Numeniusphaeopus)在全球广泛分布,但在东亚-澳大利西亚候鸟迁飞区的迁徙活动一直缺乏追踪研究。2018年2月,在澳大利亚西北部的布鲁姆为捕捉到的中杓鹬成鸟佩戴平台发射终端或全球定位系统-全球移动通讯系统追踪器,以确定其迁徙日程、迁徙路线以及迁徙停歇地和繁殖地的地理位置。我们从成功追踪的7只个体获取了6 378条精度高于1 km的位点数据。分析结果表明,在春季,中杓鹬的迁徙时长为(36±4)d,其间在1～3个迁徙停歇地的停留日期为(23±2)d,从越冬地到繁殖地的迁徙距离为(9 795±346)km(n=7)。追踪的中杓鹬在俄罗斯东部和中部区域繁殖,不同个体的繁殖地纬度相近而经度范围较广。在秋季,中杓鹬的迁徙时长为(90±27)d,相比春季迁徙时长更长;其间,在2～4个迁徙停歇地停留(79±29)d,从繁殖地到越冬地的迁徙距离为(10 101±520)km(n=5)。无论在春季还是秋季迁徙,迁徙停歇地广泛分布于东亚、东南亚沿海及内陆区域。大部分个体春季和秋季的迁徙路线相近,成功追踪的个体均在秋季返回了上一年的越冬地,这表明中杓鹬对越冬地具有很高的忠诚度。     

基于卫星跟踪的洞庭湖越冬小天鹅迁徙路线研究

掌握洞庭湖越冬小天鹅Cygnus columbianus的迁徙行为和规律,明确迁徙路线和停歇地,是小天鹅栖息地恢复研究及保护的基础。2014—2017年,在湖南东洞庭湖国家级自然保护区对18只小天鹅进行卫星跟踪,收集了38 882条定位数据。本研究确定了小天鹅西线、中线和东线3条迁徙路线,其中,新发现的西线沿我国湖北、河南、山西、陕西、内蒙古,以及蒙古国、哈萨克斯坦,抵达俄罗斯亚马尔-涅涅茨自治区北部靠近喀拉海的北极苔原。西线春季迁徙距离为6 715 km,平均迁徙速度为21.52 km·h~(-1),秋季迁徙距离为7 467 km,平均迁徙速度为32.75 km·h~(-1)。中线春季迁徙距离为2 083 km,平均迁徙速度为28.93 km·h~(-1)。东线春季迁徙距离为5 965~6 351 km,平均迁徙速度为(28.71±0.95)km·h~(-1),秋季迁徙距离为5 101~5 331 km,平均迁徙速度为(29.15±3.65)km·h~(-1)。小天鹅春季迁徙进程慢于秋季,迁徙途中的最大飞行速度达133.3 km·h~(-1)。内蒙古自治区的黄河湿地和大兴安岭两侧河谷湿地是迁徙途中的重要中转站,小天鹅在此停歇15 d以上。本研究有助于了解小天鹅对栖息环境的偏好及迁徙路线选择策略,为禽流感等疾病传播和防控提供科学依据。     

宁夏中卫黄河沿岸迁徙灰鹤停歇模式

中途停歇地是候鸟重要的能量补给地及休息站,对其顺利完成迁徙有着重要作用。为了解灰鹤(Grus grus)迁徙途中的停歇模式,于2013年和2015年冬季,采用卫星跟踪技术在贵州草海保护区成功跟踪了4只灰鹤。结果显示,其中3只灰鹤在宁夏中卫市境内的黄河和清水河流域湿地停歇,表明该地区为灰鹤迁徙时的重要停歇地。春季迁徙时,灰鹤在2月初至3月初到达中卫,平均停留(24.5?6.7)d(15~30 d,n=4),2月底至3月底迁离;秋季迁徙时,10月末至11月初到达,平均停留(32.0?4.2)d(29~35 d,n=2),至11月底迁离。停留期间主要的活动范围为中宁县境内的长山头水库、黄河河心岛及同心县境内的清水河周边区域。2017年3月18日,采用夜栖地直接计数法进行实地调查,共发现灰鹤636只,其日间活动范围和卫星跟踪结果类似。此次发现的灰鹤停歇地均未纳入自然保护体系,建议当地林业部门在灰鹤迁徙期间加强管理,可适当投食,以减少灰鹤误食耕地中经农药包衣处理的玉米(Zea mays)种子造成的死亡。     

基于卫星跟踪大天鹅春季迁徙时间及其影响因素

候鸟春季迁徙时间与其能否顺利完成迁徙过程,以及对繁殖地的成功选择和繁殖成效密切相关,通过对大天鹅越冬地和停歇地的春季迁徙时间选择原因及其影响因素进行分析,有助于深入理解候鸟春季迁徙时间策略和栖息地保护状况。2015年2月和12月,在河南三门峡湿地捕捉了60只越冬大天鹅并佩戴卫星跟踪器,获取了详细的大天鹅在越冬地和停歇地的春季迁徙时间等信息,并进一步分析了春季迁徙时间与气候因子的相关性。结果表明,大天鹅主要在夜间22：00-0：00和0：00-1：59迁离越冬地。大天鹅迁离越冬地的日期与温度呈显著性正相关,迁离时多选择顺风且风速较小的天气。大天鹅迁离越冬地后主要是在夜间飞行,而迁离停歇地后主要是在日间飞行。越冬地的温度越高,越有利于植物的生长,大天鹅可以快速地积累能量,提前开始春季迁徙。野外调查表明,内蒙古黄河中上游作为迁徙的重要停歇地,春季两岸捕鱼、农耕和放牧等为活动较多,因此大天鹅多选择在夜间觅食补充能量,在日间迁离。最后,针对黄河流域大天鹅栖息地的保护现状,提出了禁止经济开发项目、建立保护区和开展宣传教育等保护建议。     

滦河上游——白枕鹤西部种群的重要停歇地

白枕鹤(Grus vipio)为国家II级重点保护野生动物, 被IUCN列为易危(VU)物种。白枕鹤西部种群繁殖于中蒙俄交界处的达乌尔地区, 数量呈下降趋势。我们于2017-2018年在蒙古国东部给白枕鹤西部种群的50只个体佩戴了GPS-GSM跟踪设备。截至2019年5月, 获得春季和秋季迁徙路径各48条。分析结果显示: 春季91.67%和秋季72.91%的跟踪个体在滦河上游(河北省沽源-内蒙古正蓝旗-多伦区域)停歇, 春季停留时间36.16 ± 15.00天、秋季20.26 ± 11.08天, 分别占春季和秋季迁徙时间的75%和67%, 确定了这一区域是西部种群迁徙途中最重要的停歇地。迁徙路线栖息地选择模型结果显示, 白枕鹤常在距离湖泊较近(< 210 km)、海拔1,200-1,500 m, 且坡度小(< 1°)的区域停歇。而滦河上游和整条迁徙路线停歇位点比较的模型结果显示, 滦河上游停歇地的海拔1,200-1,500 m与整条迁徙路线栖息地选择模型的结果一致; 此外这个区域离河流更近(< 70 km), 不仅有湿地和水体的栖息环境, 还有草地和农田可供觅食和栖息。保护空缺分析发现滦河上游现有四处保护地, 但在保护地内的迁徙停歇点不超过总位点的1.63%。综上, 我们建议将滦河上游整体纳入保护地体系进行管理, 为这一受胁物种及其栖息地管理和保护提供可靠保障。     

四川美姑、汉源黑颈鹤迁徙停歇地环境调查

于2005年及2006年春季在云南大山包和贵州草海给8只黑颈鹤(Grus nigricollis)放置了卫星发射器,观察结果表明,其中6只黑颈鹤至少完成了一次完整的春季或秋季迁徙。黑颈鹤在四川省汉源停歇的乡镇包括:乌斯河镇、河南、坭美、梨园、宜东、三交坪和皇木;在美姑停歇的乡镇包括:柳洪、依果觉、农作、拉木阿觉、炳途、瓦古、峨曲古龙门和尼哈。2005年6月4~8日和2006年6月8~14日实地考察了汉源和美姑两县的黑颈鹤停歇地点。黑颈鹤在两县的停歇地点都在海拔1900m以上且人为活动稀少的区域,或为草甸覆盖的高山浑圆山头,或为高山缓坡的林间空旷草地。     

湿地水鸟在哪里?

正根据湿地水鸟的地理分布特征、中国自然地理环境的地域差异和湿地类型的不同,我国湿地水鸟栖息地主要包括下列五个区域:(1)东北沼泽湿地,为大型涉禽和游禽的繁殖与迁徙停歇区,(2)西北和青藏高原草甸沼泽和高原湖泊,为游禽和大型涉禽繁殖与迁徙停歇区,(3)西南高原湖泊和草甸,为游禽和大型涉禽越冬和迁徙停歇区,(4)长江中下游淡水湖泊,为大型涉禽和游禽越冬区,(5)沿海岛屿和滩涂湿     

豆雁在中国的春季迁徙路线及迁徙停歇地

掌握禽流感病毒携带者豆雁(Anser fabalis)的迁徙路线对于全面理解候鸟在禽流感疫情传播与扩散中的作用具有重要意义。2013年3月至4月在江西省鄱阳湖南矶山保护区,利用卫星跟踪法对3只豆雁个体的迁徙路线进行研究,仅有1只个体成功传输数据。数据经Google Earth和Excel软件处理后,结果显示:该只豆雁由江西鄱阳湖出发,途经安徽、江苏、山东、天津等省市到达河北秦皇岛,5月被发现死于山海关,迁徙总距离约1 500 km,有5个停歇地;两相邻停歇地之间最短距离为20 km,最长为700 km;停留时间最短为1 d,最长为14 d;约68%的停歇位点地物类型为农田;飞行高度平均值为15 m,最大值为407 m。     

福建省黑脸琵鹭的分布及栖息地现状

2003年3月~2006年4月,对福建省海岸湿地的黑脸琵鹭(Platalea minor)及其栖息地进行了研究。在福建省越冬的黑脸琵鹭约60~90只,每年迁徙停歇的种群数量在80只以上,黑脸琵鹭主要选择河口的滩涂湿地作为越冬和迁徙停歇地。栖息地的丧失和破坏是其面临的最大生存威胁。实施湿地保护和可持续利用工程,并帮助当地政府和民众寻找到发挥湿地更高经济效益的产业是保护黑脸琵鹭栖息地的重要途径。     

中国首次卫星跟踪黑颈鹤研究初报

黑颈鹤（Grus nigricollis）为国家Ⅰ级重点保护野生动物,分别被IUCN和CITES列为易危和附录Ⅰ物种,是世界上15种鹤类中唯一生活于高原的鹤类。黑颈鹤夏季在我国境内的青藏高原繁殖,冬季除在不丹北部有少量个体外,绝大部分种群在青藏高原东南部和云贵高原越冬。作为主要分布于我国的珍稀鸟类,我国学者对该物种的地理分布、     

Migration routes and stopover sites of Black-necked Cranes determined by satellite tracking

ABSTRACT.   Because their breeding and wintering areas are in remote locations, little is known about the biology of Black-necked Cranes ( Grus nigricollis ), including their migratory behavior. Using satellite telemetry, we monitored the migration of Black-necked Cranes ( N = 6) in China to determine migration routes and the location of stopover sites. From 2005 to 2007, four cranes were tracked during two spring migrations and one fall migration, one was tracked during one spring and one fall migration, and one was tracked during one spring migration. On average, the cranes made seven flights over a 5-d period to migrate 651 km to breeding areas in the spring. In the fall, birds averaged six flights in 5 d to migrate 694 km. The routes traveled by cranes during spring and autumn migration were similar. Both the migration distances and duration of migration are the shortest reported for any crane species to date. Most stopover sites were in areas along rivers and close to wetlands in the Daliang Mountains and the Ruoergai Plateau. Conservation measures are needed to reduce habitat loss (wetland and pasture) in the Daliang Mountains and establish a reserve for stopover sites in the Ruoergai marshes, such as Longriba and Bai River in Hongyuan County.     

The migration of the great snipe Gallinago media: intriguing variations on a grand theme

The migration of the great snipe Gallinago media was previously poorly known. Three tracks in 2010 suggested a remarkable migratory behaviour including long and fast overland non‐stop flights. Here we present the migration pattern of Swedish male great snipes, based on 19 individuals tracked by light‐level geolocators in four different years. About half of the birds made stopover(s) in northern Europe in early autumn. They left the breeding area 15 d earlier than those which flew directly to sub‐Sahara, suggesting two distinct autumn migration strategies. The autumn trans‐Sahara flights were on average 5500 km long, lasted 64 h, and were flown at ground speeds of 25 m s^?1 (90 km h^?1). The arrival in the Sahel zone of west Africa coincided with the wet season there, and the birds stayed for on average three weeks. The birds arrived at their wintering grounds around the lower stretches of the Congo River in late September and stayed for seven months. In spring the great snipes made trans‐Sahara flights of similar length and speed as in autumn, but the remaining migration through eastern Europe was notably slow. All birds returned to the breeding grounds within one week around mid‐May. The annual cycle was characterized by relaxed temporal synchronization between individuals during the autumn–winter period, with maximum variation at the arrival in the wintering area. Synchronization increased in spring, with minimum time variation at arrival in the breeding area. This suggests that arrival date in the breeding area is under strong stabilizing selection, while there is room for more flexibility in autumn and arrival to the wintering area. The details of the fast non‐stop flights remain to be elucidated, but the identification of the main stopover and wintering areas is important for future conservation work on this red‐listed bird species.     

Spring migratory routes and stopover duration of satellite‐tracked Eurasian Teals Anas crecca wintering in Italy

Identifying an organism's migratory strategies and routes has important implications for conservation. For most species of European ducks, information on the general course of migration, revealed by ringing recoveries, is available, whereas tracking data on migratory movements are limited to the largest species. In the present paper, we report the results of a tracking study on 29 Eurasian Teals, the smallest European duck, captured during the wintering period at three Italian sites. The departure date of spring migration was determined for 21 individuals, and for 15 the entire spring migratory route was reconstructed. Most ducks departed from wintering grounds between mid‐February and March following straight and direct routes along the Black Sea‐Mediterranean flyway. The breeding sites, usually reached by May, were spread from central to north‐Eastern Europe to east of the Urals. The migratory speed was slow (approximately 36 km/day on average) because most birds stopped for several weeks at stopover sites, mainly in south‐eastern Europe, especially at the very beginning of migration. The active flight migration segments were covered at much higher speeds, up to 872 km/day. Stopover duration tended to be shorter when birds were closer to their breeding site. These results, based on the largest satellite tracking effort for this species, revealed for the first time the main features of the migratory strategies of individual Teals wintering in Europe, such as the migration timing and speed and stopover localization and duration.     

African Odyssey project – satellite tracking of black storks Ciconia nigra breeding at a migratory divide

The African Odyssey project focuses on studying the migration of the black stork Ciconia nigra breeding at a migratory divide. In 1995–2001, a total of 18 black storks breeding in the Czech Republic were equipped with satellite (PTT) and VHF transmitters. Of them, 11 birds were tracked during at least one migration season and three birds were tracked repeatedly. The birds migrated either across western or eastern Europe to spend the winter in tropical west or east Africa, respectively. One of the juveniles made an intermediate route through Italy where it was shot during the first autumn migration. The mean distance of autumn migration was 6,227 km. The eastern route was significantly longer than the western one (7,000 km and 5,667 km respectively). Important stopover sites were discovered in Africa and Israel. Wintering areas were found from Mauritania and Sierra Leone in the west to Ethiopia and Central African Republic in the east and south. One of the storks migrating by the eastern migration route surprisingly reached western Africa. Birds that arrived early in the wintering areas stayed longer than those arriving later. On the average, birds migrating via the western route spent 37 d on migration compared to 80 d for birds migrating via the eastern route. The mean migration speed in the autumn was 126 km/d and the fastest stork flew 488 km/d when crossing the Sahara. The repeatedly tracked storks showed high winter site fidelity.     

丹顶鹤春迁期觅食栖息地多尺度选择——以双台河口保护区为例

双台河口保护区是世界濒危鸟类丹顶鹤大陆种群西线群体不同生活史阶段的重要栖息地。2008-2010年3-4月,采用定点观察法、二维坐标法、方差分析、因子分析等方法对保护区内春迁期丹顶鹤觅食栖息地的多尺度选择进行了监测分析。研究结果表明：(1)春迁期,该保护区丹顶鹤觅食栖息地选择包括2个尺度3个选择,即大生境尺度内觅食生境类型选择和小生境尺度内觅食区选择、觅食微生境选择;(2)觅食生境类型偏好选择芦苇沼泽(90.00%),也偶选玉米地、泥滩、草甸等生境;(3)觅食区选择通过宏生境因子和干扰因子来判定,宏生境因子包括明水面、堤坝和火烧地,距离均在30m以内;干扰因子包括居民区和油田等强干扰因子和道路等弱干扰因子,均采取远离的方式进行回避,居民区保持在1km以上,油田保持在2km以上,道路保持在300-500m;(4)觅食微生境选择通过微生境因子来判定,包括植被高度、植被密度、植被直径等,选择盖度小(<5%)且植被高度小于喙长的区域觅食。     

Use of wetlands at the mouth of the Yangtze River by shorebirds during spring and fall migration

ABSTRACT.   The mouth of the Yangtze River is an important stopover site for migratory shorebirds using the East Asian-Australasian Flyway. From 1984 to 2004, we censused and banded shorebirds and monitored hunting activities at the mouth of the Yangtze River to understand how shorebirds used the study area. Counts and banding data revealed greater numbers of shorebirds at the mouth of the Yangtze River during northward migration (spring) than during southward migration (fall), with ratios varying from 1.5:1 to 7.2:1 at different sites from 1984 to 2005. The most common species observed during spring (northward) migration were Great Knots ( Calidris tenuirostris ), Red Knots ( Calidris canutus ), Bar-tailed Godwits ( Limosa lapponica ), Sharp-tailed Sandpipers ( Calidris acuminata ), and Red-necked Stints ( Calidris ruficollis ). During spring 2003–2004, 96.98% of the shorebirds observed were adults (ASY or older) and 3% were after hatching-year and second-year birds (AHY or SY). In contrast, almost all (94.73%) birds counted during the fall were hatching-year (HY) birds. These results indicate that adult shorebirds either use a different migration route during fall migration or use the same route, but do not stop at the mouth of the Yangtze River. HY birds, however, may depend on the coastal stopover sites for feeding during their first southward passage.