青海湖四种繁殖水鸟活动区域的研究

2006年4-9月,采用彩色标记、无线电遥测和卫星跟踪等方法,对青海湖四种繁殖水鸟斑头雁（Anser indicus）、棕头鸥（Larus brunnicephalus）、渔鸥（L．ichthyaetus）和鸬鹚（Phalacrocorax carbo）的活动区域进行了研究。采用“绳套法”捕捉了45只斑头雁,其中6只于4月安装了无线电发射器,6只于7月安装了卫星发射器;采用“拉网法”捕捉了104只棕头鸥,其中6只于4月安装了无线电发射器;采用“绳套法”捕捉了51只渔鸥,其中2只于4月安装了无线电发射器;采用“扣网法”捕捉了75只鸬鹚,其中6只于5月和6月安装了无线电发射器,4只于8月安装了卫星发射器。通过研究,获得了上述四种繁殖水鸟在青海湖的活动区域,即：斑头雁有3个主要的活动区域,棕头鸥有1个,渔鸥有4个,鸬鹚有2个。其中从鸬鹚岛、蛋岛、布哈河口、铁卜恰河口至泉湾区域是上述四种繁殖水鸟共有的活动区域,该区域也是春秋迁徙季节众多水鸟的重要取食地和停歇地。     

禽流感发生后青海湖水鸟的种群现状

于2006年和2007年4~9月,在青海湖对水鸟的资源状况进行了调查。结果表明,青海湖地区迁徙水鸟的多样性呈季节性变化。春季迁徙期水鸟多样性较高,水鸟的种类和数量都较为丰富;进入繁殖期以后,各地点的水鸟多样性趋于下降;随着秋季迁徙期的来临,水鸟多样性又再度升高,水鸟的种类和数量接近或超过春季迁徙期。在春季迁徙期,布哈河口、铁卜恰河口、泉湾和尕日拉的斑头雁(Anser indicus)、棕头鸥(Larus brunnicephalus)、渔鸥(L.ichthyaetus)、普通鸬鹚(Phalacro coraxcarbo)和赤麻鸭(Tadorna ferruginea)5种水鸟的数量都较多,致使种间相遇几率也较高;进入繁殖期以后,尕日拉的种间相遇率降低,而蛋岛和黑马河的种间相遇率有所增加,其余如布哈河口、铁卜恰河口和泉湾仍维持较高的水平;秋季迁徙期5种水鸟大多以集群的方式进行活动,主要集中在少数几个地点,如布哈河口、泉湾和黑马河,因此这三处的种间相遇率随之增加。最后,有针对性地提出了禽流感监测和保护管理建议。     

青海湖斑头雁（Anser indicus）繁殖期的活动性、栖息地利用及其与人的关系

2005年高致病性禽流感爆发,导致青海湖数千只斑头雁和中国其他地区大量家禽死亡。首次应用无线电遥测和颈环标记法对青海湖疫区斑头雁在繁殖期的活动性、栖息地利用及其与人的关系进行了研究。斑头雁主要在蛋岛繁殖,在泉湾、尕日拉、黑马河口、铁卜加河口等地觅食。斑头雁在青海湖的活动区为（309.63±172.72）km^2,活动核心区大小为（49.30±19.61）km^2。个体在不同阶段的活动区大小无显著差异。不同繁殖阶段间活动区较稳定,平均有超过一半（56.6%±24.9%）的活动点落入上一阶段的活动区中。由于成鸟在繁殖后期带领幼鸟离开繁殖场所,因而繁殖中、后期的活动区稳定性相对较差。斑头雁对河口、沼泽、草地和湖泊的利用率依次减少。随着繁殖季节的推移,斑头雁对河口的利用率逐渐减小,对沼泽的利用率则逐渐增加。对斑头雁与人的关系研究表明,在地点方面,斑头雁在蛋岛、黑马河口和泉湾与人的接触强度最大;在时间方面,5月份斑头雁与人的接触强度最大。在这些时间和地点,加强旅游管理和对牧民的宣传对禽流感防控非常必要。     

西藏夯错水鸟多样性及斑头雁繁殖活动区的变化

于2009年4-11月,对西藏夯错的水鸟资源状况进行了调查,旨在了解该地区水鸟资源状况的了解,并为禽流感的防控提供了科学依据.在夯错全年共记录到水鸟26种,隶属于6目10科.夯错也是斑头雁和棕头鸥重要的繁殖地.水鸟春秋季迁徙高峰期在4月份和10月份,这也是水鸟多样性较高的2个月,其主要原因是由于迁徙鸭类数量和种类的增加.卫星跟踪研究表明,在繁殖前期,斑头雁活动区面积较大,主要在夯错及其周围的湿地取食;进入繁殖中期,斑头雁的活动范围减少了许多;繁殖后期,随着幼鸟陆续出壳.父母随即带领幼鸟离开夯错,到其它湿地取食和育雏,因此此期的活动区面积较大.由于夯错面积较小,不能满足斑头雁对食物的需求,因此部分斑头雁选择其它湿地作为主要的取食地,但部分扩散到其它湿地的斑头雁在迁徙前期重新返回夯错,使得该时期斑头雁的数量有呈上升趋势.通过与青海湖水鸟资源状况的比较发现,夯错水鸟种类较少.这可能主要是由于两个湖泊所处地理区划的不同,并由此带来的气候环境的差异,以及植被条件的不同所造成的.这种差异主要是由于夯错海拔较高.紫外线很强,气候干燥,植被单一,栖息地类型多样性较低,因此水鸟的种数也相对较少一些.     

西藏夯错水鸟多样性及斑头雁繁殖活动区的变化

于2009年4 11月,对西藏夯错的水鸟资源状况进行了调查,旨在了解该地区水鸟资源状况的了解,并为禽流感的防控提供了科学依据。在夯错全年共记录到水鸟26种,隶属于6目10科。夯错也是斑头雁和棕头鸥重要的繁殖地。水鸟春秋季迁徙高峰期在4月份和10月份,这也是水鸟多样性较高的2个月,其主要原因是由于迁徙鸭类数量和种类的增加。卫星跟踪研究表明,在繁殖前期,斑头雁活动区面积较大,主要在夯错及其周围的湿地取食;进入繁殖中期,斑头雁的活动范围减少了许多;繁殖后期,随着幼鸟陆续出壳,父母随即带领幼鸟离开夯错,到其它湿地取食和育雏,因此此期的活动区面积较大。由于夯错面积较小,不能满足斑头雁对食物的需求,因此部分斑头雁选择其它湿地作为主要的取食地,但部分扩散到其它湿地的斑头雁在迁徙前期重新返回夯错,使得该时期斑头雁的数量有呈上升趋势。通过与青海湖水鸟资源状况的比较发现,夯错水鸟种类较少,这可能主要是由于两个湖泊所处地理区划的不同,并由此带来的气候环境的差异,以及植被条件的不同所造成的。这种差异主要是由于夯错海拔较高,紫外线很强,气候干燥,植被单一,栖息地类型多样性较低,因此水鸟的种数也相对较少一些。     

卫星跟踪中蒙之间秃鹫春季迁徙路线及活动区域

秃鹫(Aegypius monachus)被世界自然保护联盟(IUCN)列为近危物种。每年冬季或者早春在渤海湾都会救护到因体质较弱而无法飞行的秃鹫,为了对秃鹫及其迁徙路线进行更有效的保护,于2016年春季对两只救护放飞秃鹫(ID1051和ID2016),利用卫星跟踪技术研究其迁徙路线和活动区,旨在为秃鹫的救护和保护提供基础资料。结果表明,ID1051和ID2016都迁徙到蒙古国的布尔干省和后杭爱省交界处,行程分别为2 200 km和2 400 km。ID2016在度夏初期、中期和后期的活动区面积(50%Fixed Kernel),分别为31 261.01km^2、1 492.96 km2和11 027.70 km^2。秃鹫在迁徙过程中主要时间在静息,其次是飞行和寻觅行为。在0至7时和19至24时,即晨昏和夜间秃鹫都处于静止状态。从8时开始,秃鹫开始活动,并在12和13时达到活动高峰,随后活动逐渐趋缓,直至18时趋于静止状态。本文提供了秃鹫的春季迁徙路线以及重要中途停歇地,为秃鹫的救护和保护提供了基础资料。     

西藏南部羊卓雍错水鸟群落及斑头雁活动区域特征

2009年4月至2010年1月,对西藏南部羊卓雍错的水鸟资源状况进行了调查。采用定点观察的方法,沿湖选择了24个观察点,分别在繁殖前期、中期和后期,以及秋季和冬季进行了6次调查。采用核密度分析(Kernel analysis)的方法,对两只卫星跟踪斑头雁(Anser indicus)的活动区进行了分析。调查期间,记录到水鸟32种31044只,隶属于6目10科。雁鸭类和鸥类分别占水鸟总数73.9%和19.1%,主要是斑头雁、赤嘴潜鸭(Rhodonessa rufina)、赤麻鸭(Tadorna ferruginea)、棕头鸥(Larus brunnicephalus)等。水鸟多样性较高的季节是春秋迁徙季节。羊卓雍错夏季主要的繁殖种群是斑头雁和棕头鸥,也有少量黑颈鹤(Grus nigricollis)的繁殖个体;冬季主要物种是赤嘴潜鸭,经常聚集在融化的冰面上。春季斑头雁的数量增加趋势较为明显;进入繁殖期后,斑头雁处于孵卵阶段,繁殖种群的数量达到2000余只;繁殖后期,斑头雁换羽结束,成鸟带领幼鸟在鸟岛附近的湖边取食,此时观察到斑头雁的数量又有明显的增加;秋季斑头雁的南迁致使种群数量呈下降趋势;冬季许多斑头雁从北方如青海湖等地迁来越冬使得种群数量有所增加,多分布于湖西浪卡子县城附近的沼泽湿地和湖南部的绒波臧布河流的入口处。卫星跟踪结果表明,羊卓雍错是青海湖繁殖的斑头雁重要的越冬地之一,湖西部沼泽湿地和湖南部的河流入口处是其主要活动区域,而且该湖与雅鲁藏布江河谷之间通过斑头雁的往来移动存在着联系,因而是西藏南部禽流感监测的重要地点。     

环境温度对大天鹅越冬行为和活动区的影响

环境温度变化通过影响鸟类的行为进而使其活动区也发生变化,探讨三者之间的关联性有助于理解鸟类是如何通过行为调整以适应周围环境的变化,来满足自身的生理需求。本研究通过卫星跟踪的方法获得了在河南三门峡湿地越冬的31只大天鹅(Cygnus cygnus)详细位点数据,在ArcGIS和R语言中采用核密度估计法计算大天鹅的活动区面积,在SPSS中采用Spearman分析平均温度与活动区面积的相关性;并利用瞬时扫描法获得大天鹅越冬行为观察数据,采用非参数Kruskal Wallis检验对大天鹅行为的差异性进行分析,探讨了环境温度与大天鹅越冬行为和活动区三者之间相互作用的模式。研究表明,从越冬初期至后期,随着环境温度的先下降后升高,大天鹅的取食、运动、静息等主要行为发生了较大的变化,静息和取食行为先增加后减少,运动行为则先减少后增加。越冬不同时期的核心区和活动区面积与温度呈显著性正相关。大天鹅在不同时段的活动区面积大小整体上均呈现出先减少后增加的趋势。随着环境温度的变化,大天鹅的越冬行为也随之发生了调整,进而使活动区面积发生改变,主要体现在越冬初期大天鹅通过增加活动区面积及时补充能量增加体能,越冬中期减少活动保持能量需求,越冬后期增加盘旋飞行使得活动区面积增大等。大天鹅这一系列行为和活动区的调整都是为了更好地满足越冬不同时期的生理需求。     

基于卫星跟踪的遗鸥活动特征与空间利用研究

河北省康巴诺尔湖和张家口坝上已成为遗鸥Larus relictus的重要繁殖地和迁徙停歇地,但对此地繁殖种群的研究才刚开始。为了掌握遗鸥繁殖种群的活动区、活动节律和空间利用等特点,2016年6—9月,利用卫星跟踪技术对康巴诺尔湖遗鸥的活动特征和空间利用进行了研究。对4只遗鸥个体的跟踪结果表明:活动特征方面,(1)遗鸥主要活动区位于张家口坝上和内蒙古乌兰察布市东部,且不同个体位点分布差异较大;(2)繁殖后期和游荡期遗鸥活动区面积差异明显,游荡期活动区面积(155.95 km~2)大于繁殖后期(59.90 km~2)。同时不同个体活动区重叠程度差异较大,繁殖后期重叠程度高,游荡期重叠程度低;(3)活动节律显示遗鸥每天凌晨和黄昏都出现较长的活动距离。空间利用方面,本研究首次将粪区和农草区划为遗鸥的觅食区域,发现繁殖后期和游荡期遗鸥对湖淖区均有较高程度的利用。此外,还对遗鸥潜在食源进行了调查,发现在康巴诺尔湖遗鸥主要食物为摇蚊科Chironomidae幼虫和划蝽科Corixidae,在其他觅食地主要食物为丰年虫Chirocephalus sp.、蚌虫Cyzicus sp.、鲎虫Triops sp.和蛆虫。     

朱鹮繁殖期的活动区和栖息地利用

20 0 0～ 2 0 0 2年 ,我们应用标记识别法和地理信息系统对朱繁殖期的活动性、活动区和栖息地利用进行了研究。结果表明 :朱在越冬期、繁殖期和繁殖后期的觅食距离存在差异 ,分别为 2 82 1± 1 4 88km、0 5 6 3± 0 6 81km和 1 70 6± 0 834km ,但同一时期中不同个体间的觅食距离无显著差异。不同年份中 ,朱在越冬期和繁殖期的觅食距离无显著差异 ;在繁殖后期 ,由于受到干旱等气候因素的影响 ,两年的觅食距离差异显著。一天中觅食距离最远的是 10 :0 0～ 12 :0 0 ,最近的是 0 6 :0 0～ 0 8:0 0。不同时间段中觅食行为的比例差异显著 ,0 6 :0 0～ 10 :0 0和 16 :0 0～ 18:0 0为取食高峰期 ,中午和夜宿前的休息和理羽行为则高于其他时间段。MCP法和 90 %Kernel法的计算结果表明 ,其中 8只观测次数较多的朱在繁殖期的平均活动区面积分别为10 0 8± 4 9 8hm2 和 175 6± 91 3hm2 ,5 0 %Kernel法计算的活动区的核心面积为 4 3 8± 2 1 5hm2 。朱个体间的繁殖活动区重叠强度较大 ,达到各自活动区的 2 4 5 %± 2 7 3%。朱营巢比较密集 ,配对亲鸟间的活动区重叠强度和其他个体的重叠强度无显著差别。栖息地利用研究表明 ,朱对针阔混交林的利用率显著低于研究区内的可利用率 ,对水田的利用     

Site fidelity and home range variation during the breeding season of peregrine falcons (Falco peregrinus) in Yamal,Russia

Many different ecological factors affecting the size, use, and spatial configuration of home ranges have been investigated, yet the chronology of the breeding cycle has been relatively under studied. Here, we studied peregrine falcons (Falco peregrinus) to describe variation in home range within and between breeding seasons in the Yamal peninsula, a region of the Russian Arctic with a high breeding density of peregrines. We used satellite telemetry to investigate variation in home range at different stages of the breeding cycle during three breeding seasons (2009–2011). We fitted Argos satellite transmitters to 10 breeding peregrines (nine females and one male) and two male fledglings. All breeding females showed fidelity to the region of the southwestern Yamal peninsula, but they were not necessarily faithful to their specific breeding ranges with 33 % dispersing to new ranges up to 40 km away. The population of peregrines in our study area was relatively synchronous in their breeding chronology, with clutches initiated in close synchrony in early June despite the birds arriving on their breeding ranges ca. 3 weeks earlier. The average home range size for breeding females was 98 km² (95 % Maximum Convex Polygon). Over the breeding season, the home range area utilized by females increased in the late nestling period and again after the chicks fledged. Expansion of the home range coincided with changes in behavior associated with parental care, resulting in greater activity and more time spent away from the nest area when the female began hunting to provision nestlings and fledglings.     

Satellite Tracking on the Flyways of Brown-Headed Gulls and Their Potential Role in the Spread of Highly Pathogenic Avian Influenza H5N1 Virus

Brown-headed gulls (Larus brunnicephalus), winter visitors of Thailand, were tracked by satellite telemetry during 2008–2011 for investigating their roles in the highly pathogenic avian influenza (HPAI) H5N1 virus spread. Eight gulls negative for influenza virus infection were marked with solar-powered satellite platform transmitters at Bang Poo study site in Samut Prakarn province, Thailand; their movements were monitored by the Argos satellite tracking system, and locations were mapped. Five gulls completed their migratory cycles, which spanned 7 countries (China, Bangladesh, India, Myanmar, Thailand, Cambodia, and Vietnam) affected by the HPAI H5N1 virus. Gulls migrated from their breeding grounds in China to stay overwinter in Thailand and Cambodia; while Bangladesh, India, Myanmar, and Vietnam were the places of stopovers during migration. Gulls traveled an average distance of about 2400 km between Thailand and China and spent 1–2 weeks on migration. Although AI surveillance among gulls was conducted at the study site, no AI virus was isolated and no H5N1 viral genome or specific antibody was detected in the 75 gulls tested, but 6.6% of blood samples were positive for pan-influenza A antibody. No AI outbreaks were reported in areas along flyways of gulls in Thailand during the study period. Distance and duration of migration, tolerability of the captive gulls to survive the HPAI H5N1 virus challenge and days at viral shedding after the virus challenging suggested that the Brown-headed gull could be a potential species for AI spread, especially among Southeast Asian countries, the epicenter of H5N1 AI outbreak.     

Great tits, Parus major, lay too many eggs: experimental evidence in mid-boreal habitats

This study shows that great tits lay too large clutches in mid‐boreal habitats. First, breeding success, measured with number of fledglings or proportion of eggs that produce fledglings, in northern Finland (65°N) is much poorer than in central and western Europe. Second, brood size manipulations (ca ±30% of the natural mean) revealed that reduced broods produced equal numbers of and larger‐sized fledglings than control and enlarged broods, giving thus the best fitness value for reduced broods. Third, parents of enlarged broods could not adjust (i.e. increase) their feeding effort to the greater number of nestlings. Fourth, extra feeding (about 1/3 of the theoretical maximal needs of the nestlings) during the nestling period resulted in more numerous and larger‐sized fledglings in comparison to control broods. We suggest that the ultimate explanation for the too large clutches is gene flow from the southern population, which prevents local adaptations in the north. Consequently, the main reason for food limitation during the nestling period is that northern great tits apply “southern” decision rules for timing of breeding, clutch size and foraging behaviour. Thus, they tend to breed too early in comparison to the food abundance peak, lay too large clutches in comparison to the level of resources and, perhaps, forage on a too narrow diet (75% caterpillars). Since the late broods that matched the local food abundance peak did not succeed better than the mismatched earlier ones, the most crucial fault of northern great tits seems to be that they overestimate food abundance during peak demands and lay too large clutches. Another explanation for this could be that northern great tits have adopted a brood reduction strategy. However, the long‐term data reveal that years of high breeding success, which would maintain large clutches in the population, are very rare in the north. Therefore, it is unlikely that a brood reduction strategy per se could explain the phenomenon. Instead, it could work together with the gene flow against local adaptation for clutch adjustment.     

Sooty Falcon Falco concolor reproduction and population dynamics on the islands in the Sea of Oman

Knowledge of demographic parameters affecting population dynamics is critical to the formulation of effective conservation strategies. Sooty Falcon Falco concolor is a little‐studied, Near‐threatened species; estimates of global population size and trend for this species are uncertain. They lay eggs during mid‐summer and sometimes nest in colonies. This unusual breeding ecology suggests that demographic parameters driving their population growth rate may differ from those of most other falcons. We studied Sooty Falcon reproduction at breeding aggregations on Fahal Island and the Daymaniyat islands in the Sea of Oman during 2007–2014, modelled population growth and identified important life history parameters using elasticity analysis. The mean (± se) clutch and brood size was 2.83 ± 0.06 and 2.11 ± 0.07, respectively. Overall, 11.7% of nests failed between the egg and nestling stages, and the failure rate differed significantly between Fahal and the Daymaniyats, and across years. The mean proportion of eggs that hatched annually was 0.66 ± 0.02, and broods were significantly smaller on the Daymaniyats than on Fahal. Falcons on Fahal Island had a higher rate of hatching, a higher rate of nests that produced at least one chick, and produced more chicks per nest than on the Daymaniyats. We suggest that Fahal's proximity to the mainland gives breeding Sooty Falcons access to a more plentiful and stable source of food, especially during the period between arrival from the wintering grounds and the onset of the autumn migration of prey birds, resulting in the better reproductive rates for falcons on Fahal Island, relative to those on the Daymaniyat Islands. The annual asymptotic population growth rate (λ) was 0.87 (95% confidence interval (CI) 0.75–0.99), suggesting a declining population, although Sooty Falcons enjoyed a slightly higher population growth rate on Fahal than on the Daymaniyats. Because our study population is on the edge of the breeding range and is isolated from other breeding areas, measures to improve reproductive success of Sooty Falcons breeding on the islands in the Sea of Oman could be important for conservation of Sooty Falcons in Oman.     

Within‐year movements and site fidelity of Purple Sandpipers during the nonbreeding season

ABSTRACT Although within‐year site fidelity to specific wintering sites allows shorebirds to use prior knowledge of resources and microhabitats, such fidelity may also make populations more vulnerable to extirpation in the event of increased predation pressure, habitat loss, or disturbance. In the eastern Atlantic, Purple Sandpipers (Calidris maritima) have been found to be highly faithful to specific sites in wintering areas. However, little is known about the use of wintering areas by these sandpipers along the coast of Maine. We quantified movements of 60 radio‐marked Purple Sandpipers in a bay near the mainland and on an offshore cluster of islands along the mid‐coast of Maine during two winters (2005–2006 and 2006–2007). Birds marked in early‐ and mid‐December remained until spring migration, with no evidence of onward migration. Mean maximum distances moved did not differ significantly between either males (8.6 ± 1.0 [SE] km; N= 30) and females (7.4 ± 0.8 km; N= 30) or juveniles (9.9 ± 1.6 km; N= 9) and adults (7.8 ± 1.1 km; N= 26). We also detected no monthly (January–May) differences in maximum distances moved. Sixty percent of marked individuals moved ≤5 km between the two most distant relocations and no birds moved >25 km during the 2‐ to 4‐month tracking period. We attribute the high site fidelity primarily to the plentiful prey base in the study area. During a 2‐d period with severe cold, feeding areas at locations protected from wave action became encased in ice and birds at these locations moved up to 10 km offshore to sites with less ice. Species with strong site fidelity, like wintering Purple Sandpipers, may be at higher risk in the event of large‐scale changes in their food base, increased predation pressure, habitat loss, or disturbance. However, the short‐distance movements made when intertidal feeding areas became encased in ice suggest that Purple Sandpipers could potentially move greater distances in response to changing conditions in their wintering areas.     

Consequences of foraging trip duration on provisioning behaviour and fledging condition of common murres Uria aalgae

We examine the provisioning constraints of a pursuit‐diving seabird in a cold ocean regime by comparing the behaviour of common murres Uria aalge rearing chicks at two colonies in the Northwest Atlantic during 1998‐2000. Funk Island is the largest (340,000–400,000 breeding pairs) and most offshore (60 km) colony of common murres in eastern Canada. Seventy‐five percent of the Northwest Atlantic population of common murres breeds on this island. Great Island is one island within the Witless Bay Ecological Reserve, which is the second largest breeding aggregation (100 000 breeding pairs) and is located near‐shore (2 km). The primary forage fish species in Newfoundland waters is capelin Mallotus villosus, which spawns on or near coastal beaches during summer. Therefore, the two study colonies differ in their distance to food resources and colony size. It is within this natural context that we compare: (1) prey types and frequency of delivery (amount of prey), (2) parental time budgets, and (3) the mass and condition (mass/wing length) of fledglings at both colonies. Similarly sized female capelin (100–150 mm) were delivered to chicks at both colonies. Foraging time per day per parent, a proxy of foraging effort, was similar at both colonies (Great Island: 5.1 h; Funk Island: 5.5 h), as was the percentage of time spent with mates (Great Island: 12.3%; Funk Island: 10.9%). Foraging trips, however, were longer at Funk Island (4.1 h) than at Great Island (2.9 h). This resulted in lower feeding rates of chicks (0.17 feeds per h) and poorer condition of fledglings (2.9 g/mm) at Funk Island compared to those at Great Island (0.22 feeds per h; 3.9 g/mm). We hypothesize that provisioning efforts are constrained at Funk Island by (1) distant food resources and increased competitor density, resulting in longer foraging trip durations and (2) the time spent paired with mates at the colony, which may reflect a minimum time required to maintain breeding sites due to higher breeding densities at Funk Island compared to Great Island. Demographic consequences of this poor fledgling condition at Funk Island are unknown, but fledglings may sufficiently accelerate growth at sea due to their closer proximity to an important nursery area. If fledgling survival is compromised, however, the lower potential for growth at Funk Island will impact the entire Northwest Atlantic population of common murres.     

辽宁双台河口黑嘴鸥的迁徙模式与种群生存率

1996-2008年6月份,对辽宁双台河口国家级自然保护区黑嘴鸥使用特定编码的彩色旗标,共标记2820只。其中成鸟31只,幼鸟2789只。根据23个越冬地点2729条彩色旗标的重见记录,推测辽宁双台河口黑嘴鸥的迁徙路线主要有两条:一条向东迁徙至韩国西南沿海及日本西部沿海越冬;另一条向南迁徙至我国天津以南的东部沿海,包括台湾西部沿海越冬。依据1996-2007年双台河口标记的黑嘴鸥幼鸟当年在日本西部沿海重见记录,计算12a间其相对生存率为(7.77±4.00)%(1.67%-14.89%)。其中1997、2001、2004、2006和2007年的相对生存率均低于平均水平,特别是2006年达到12年来的最低值(1.67%)。采用MARK软件中的Cormack-Jolly-Seber(CJS)模型,估计黑嘴鸥亚成体和成体的年生存率分别为0.613±0.058和0.746±0.042,重见率分别为0.897±0.04和0.799±0.053。亚成体较成体的重见率高,可能与亚成体到达越冬地相对比较集群有关。同时建议开展更多的彩色旗标观察活动,便于进一步了解同一越冬地中不同年龄段黑嘴鸥的移动规律。     

Seasonal movements of Gyrfalcons Falco rusticolus include extensive periods at sea

Little information exists on the movements of Gyrfalcons Falco rusticolus outside the breeding season, particularly amongst High Arctic populations, with almost all current knowledge based on Low Arctic populations. This study is the first to provide data on summer and winter ranges and migration distances. We highlight a behaviour previously unknown in Gyrfalcons, in which birds winter on sea ice far from land. During 2000–2004, data were collected from 48 Gyrfalcons tagged with satellite transmitters in three parts of Greenland: Thule (northwest), Kangerlussuaq (central‐west) and Scoresbysund (central‐east). Breeding home‐range size for seven adult females varied from 140 to 1197 km² and was 489 and 503 km² for two adult males. Complete outward migrations from breeding to wintering areas were recorded for three individuals: an adult male which travelled 3137 km over a 38‐day period (83 km/day) from northern Ellesmere Island to southern Greenland, an adult female which travelled 4234 km from Thule to southern Greenland (via eastern Canada) over an 83‐day period (51 km/day), and an adult female which travelled 391 km from Kangerlussuaq to southern Greenland over a 13‐day period (30 km/day). Significant differences were found in winter home‐range size between Falcons tagged on the west coast (383–6657 km²) and east coast (26 810–63 647 km²). Several Falcons had no obvious winter home‐ranges and travelled continually during the non‐breeding period, at times spending up to 40 consecutive days at sea, presumably resting on icebergs and feeding on seabirds. During the winter, one juvenile female travelled over 4548 km over an approximately 200‐day period, spending over half that time over the ocean between Greenland and Iceland. These are some of the largest winter home‐ranges ever documented in raptors and provide the first documentation of the long‐term use of pelagic habitats by any falcon. In general, return migrations were faster than outward ones. This study highlights the importance of sea ice and fjord regions in southwest Greenland as winter habitat for Gyrfalcons, and provides the first detailed insights into the complex and highly variable movement patterns of the species.