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1.
风电场对盐城珍禽国家自然保护区鸟类的影响   总被引:2,自引:0,他引:2       下载免费PDF全文
利用保护区历年鸟类监测数据,以及短期野外实地调查数据,结合保护区生态环境特点,研究了风电场建设对盐城珍禽国家自然保护区鸟类的影响。结果表明:风电场建立通过占用鸟类栖息地而间接影响风电场周围鸟类的栖息和觅食,但总体来说,其影响较小;风机转速较慢及保护区鸟类飞行高度均高于风机高度,风机与鸟类的碰撞风险较低;为了保护鸟类的安全及保障其正常生存,需要采取合理布局风电场、建立鸟类观测站、协调区域滩涂及邻近地区的开发建设等措施。  相似文献   

2.
鼎湖山作为中国大陆第一个自然保护区,保存有完整的南亚热带季风常绿阔叶林,是华南生物多样性热点区域。保护区鸟类资源丰富,但历史研究资料较为零散,至今没有完整的鸟类编目。本文通过系统整理1913至2019年发表的文献,分析了保护区鸟类资源的变化情况以及受胁因素。区内共记录鸟类17目64科267种,其中国家重点保护鸟类45种。区系组成以东洋界种类占优,占繁殖鸟类总数的78.48%。居留型方面,迁徙鸟有144种,留鸟118种,另有5种鸟类在鼎湖山既有迁徙也有定居。文献资料显示,保护区的鸟类学研究涉及种群、群落、行为及繁殖等,以白鹇(Lophura nycthemera)的种群生态学以及不同植被演替序列中鸟类群落研究较为深入。对比历史鸟类编目信息发现,近30多年来保护区及周边水鸟种类显著减少,如鸻形目物种,这与城镇化高速发展导致沼泽、池塘、水田等湿地面积大幅减少有关。2013至2019年野外固定监测发现了斑尾鹃鸠(Macropygia unchall)等15种保护区鸟类分布新记录种,以迁徙鸟为主。保护区未来应全面建立鸟类多样性长期固定监测体系,加强鸟类生活史、种间社会组织、群落构建机制等热点理论研究;并整合其他动植物多类群互作网络,阐明动植物功能多样性与生态系统稳定性之间的内在规律,为保护区野生动物保护与管理提供科学依据。  相似文献   

3.
近年来我国风力发电发展迅速, 已有研究发现风电工程会对鸟类多样性产生不同程度的影响。然而, 过去的研究多以区域内鸟类常规调查为主, 未直接对风机致死鸟类进行长期系统的调查监测, 也未进一步探究风机致死可能的方式和原因, 从而难以根据风机致死鸟类的实际情况提出有针对性的防范措施和应对方法。本文以江苏盐城滨海地区风电场为例, 基于2020年10月至2021年9月共22次连续的调查监测, 应用尸体搜索法调查了研究区域内风机致死鸟类的情况。结果表明: (1)风机下发现的死亡鸟类有8目10科12种, 死亡鸟类主要为留鸟或已在研究区域内繁殖的种类, 占死亡鸟类种类的66.7%; (2)风机下共发现死亡鸟类41只, 环颈雉(Phasianus colchicus)死亡数量最多, 有19只, 大部分位于农田及农田防护林中; 夜鹭(Nycticorax nycticorax)和白鹭(Egretta garzetta)死亡数量也较多, 共11只, 主要位于鱼塘中; (3)通过对风机下死亡鸟类的情况分析发现, 在风机基座比风机扇叶造成的碰撞致死情况多。最后, 本文提出了减缓风机对鸟类影响的措施和建议, 包括持续开展鸟类监测, 及时开展风机下生境的治理, 加强鸟类相关驱避技术装备研发等, 为我国风电与生态环境保护之间的协调发展提供参考。  相似文献   

4.
野生动物重金属污染研究进展   总被引:1,自引:0,他引:1  
重金属污染问题已成为全球热点,会对野生动物及环境造成严重危害。野生动物体内重金属主要来自食物链的传递,植物从空气和土壤中吸收重金属离子及其化合物,被采食后富集到草食性动物体内,逐级传递,最终会进入野生动物体内,对野生动物健康造成严重危害。体内重金属超标可以导致鸟类产生生殖障碍,降低种群数量,同时也会影响鸟类的行为。体内重金属超标会对哺乳动物骨骼发育、生殖健康等方面产生极大危害,对哺乳动物繁衍生息产生影响。文中主要综述重金属污染对野生鸟类、野生哺乳动物生长发育的影响;重金属在生物链传递过程的富集机制及其对野生鸟类、野生哺乳动物的毒理分子机制,以期对重金属环境污染的预防与治理提供理论基础。  相似文献   

5.
气候变化对鸟类迁徙时间的影响是目前生态学研究的热点问题。本文利用鸟类环志的方法分析了2010至2019年河北秦皇岛两种鸟类春季迁徙时间变化趋势及其差异性,并进一步探讨了差异性的原因。选择环志数量较多的食虫鸟黄眉柳莺(Phylloscopus inornatus)和食谷鸟灰头鹀(Emberiza spodocephala)作为研究对象,分析了10年间两种鸟类春季迁徙到达时间、高峰期、离开时间和停歇天数的变化及其相关性。结果表明,10年间黄眉柳莺和灰头鹀春季迁徙到达时间、高峰期和离开时间都出现了提前现象。黄眉柳莺和灰头鹀在秦皇岛停歇天数都呈现缩短的趋势,黄眉柳莺到达时间与离开时间存在显著的正相关。两种候鸟春季迁徙时间出现这种变化的原因是由于秦皇岛环境温度呈现逐渐升高的趋势,促使各种植被群落和昆虫提前进入生长繁殖阶段,为春季提前迁徙而来的候鸟提供丰富的食物资源。黄眉柳莺春季迁徙期在秦皇岛采取“早到早走”的策略,提早到达繁殖地可以增加其繁殖成功率,有助于提高鸟类种群的生存率。  相似文献   

6.
卫星跟踪技术在候鸟迁徙研究中的应用   总被引:5,自引:0,他引:5  
自20世纪80年代末期应用基于Argos系统的卫星跟踪技术开展候鸟迁徙研究以来,鸟类学家取得了许多利用传统鸟类迁徙研究方法所无法取得的成果。但在中国,卫星跟踪技术在鸟类迁徙中的应用尚属空白。作者利用参与中国首次应用卫星跟踪技术跟踪候鸟迁徙研究之机,对该技术用于候鸟迁徙研究的技术平台、主要内容和未来研究进行了综述和展望。利用卫星跟踪技术开展的主要研究内容有:揭示迁徙路线和重要停歇地点;寻找新繁殖地和越冬地;利用卫星数据对栖息地及其利用进行评价;探讨鸟类的迁徙策略。期望该技术能够成为中国濒危鸟类保护的有效方法,并尽快得到应用。  相似文献   

7.
鸟类迁徙:在全球变暖趋势下的演化、调控与发展(英文)   总被引:6,自引:0,他引:6  
最近几十年的研究证实 ,鸟类迁徙在很大程度上受到遗传因素的直接控制。有证据表明 ,存在某种先天的迁徙动因并涉及以下几方面的遗传调控 :(1)迁徙过程的起始、持续以及结束 ;(2 )迁徙活动量 ,即决定鸟类飞行距离的遗传参数 ;(3)迁徙方向 ;(4)生理参数 ,特别是迁徙期间的脂肪贮存 ,以及对于那些部分个体迁徙的鸟种而言 ,决定个体迁徙与否的生理参数。双因素选择实验表明 ,部分迁徙群经由几个世代的选择即可转变成完全的迁徙群或非迁徙群。新迁徙方向以及由此导致的新越冬区的改变 ,也能在野生鸟类中迅速实现。至少在以往研究得最为透彻的鸟种 (黑顶林莺Sylviaatricapilla)中 ,“迁徙”或“非迁徙”是先天性的 ,与特异性迁徙活动量相关 (尤如一时间程序 ) ,前者 (迁徙的 )已证实是由一种阈机制所控制的。一项新的鸟类迁徙理论假设 ,即使好些完全迁徙的类群 ,较低水平的迁徙活动量选择也会导致阈的异位 ,低于这一阈值就会出现非迁徙个体。因此 ,通过选择作用 ,一个迁徙型种群可以通过部分迁徙型转变为非迁徙型。这种中间阶段在现存鸟类中十分普遍。它始见于生物演化早期 ,就鸟类而言 ,可能在原始鸟类就已具备。模型运算表明 ,在施以强定向选择情况下 ,迁徙鸟类经过约 4 0年可转变为留鸟 ,反之亦然。这就解  相似文献   

8.
辽宁老铁山雀形目鸟类秋季迁徙初探   总被引:1,自引:0,他引:1       下载免费PDF全文
2000~2004年秋在辽宁旅顺老铁山自然保护区,通过鸟类环志和直接观察的方法,对该地区雀形目(Passeriformes)鸟类秋季迁徙规律进行了研究。5年共环志11 040只雀形目鸟类,发现8种保护区新记录种。结果表明,鸟类迁徙高峰大都集中在10月中下旬;气候条件与鸟类迁徙关系密切;不同年份优势种及种群数量均不同;鸟类的迁徙具有一定的顺序性和集群现象,但不同种类迁徙的种群大小又有差别;2004年雀形目鸟类的种类和数量都明显少于前4年,略有下降趋势。  相似文献   

9.
遥感与GIS支持下的崇明东滩迁徙鸟类生境适宜性分析   总被引:6,自引:2,他引:4  
崇明东滩鸟类自然保护区位于长江入海口,是国际迁徙鸟类重要的栖息地.受自然和社会因素影响,该地区鸟类栖息环境正处于快速变化.研究采用面向对象的图像分割方法提取鸟类生境适宜性多边形评价单元,根据近年来野外调查数据分析了影响迁徙鸟类生存的地类、植被、潮沟、底栖生物等关键环境因素,建立了鸟类与关键环境影响因素的定性定量关系.在此基础上利用GIS空间分析方法和技术,进行了崇明东滩鸟类保护区内主要四大鸟类种群雁鸭类、鸻鹬类、鹭类以及鸥类的生境适宜性分析.结果表明:(1)崇明东滩迁徙鸟类生境较适宜的面积占保护区总面积40%左右;(2)光滩区域、与光滩邻近的海三棱藨草带以及潮沟地带是鸟类生境适宜性较好的地理区域;(3)基于面向对象的遥感分析技术和GIS空间分析技术,能有效且简便地对生态环境处于快速动态变化中的物种生境适宜性进行快速、客观准确的分析评价,其结果可为崇明东滩鸟类种群及其生存环境规划、保护和管理提供基础科学依据.  相似文献   

10.
2018年7月-2019年5月,采用样线法和样点法对启东长江口(北支)自然保护区恒大海上威尼斯碧海银沙海水浴场内鸟类多样性进行了调查,共记录到鸟类9目23科51种,其中鸻形目、雁形目、鹳形目、鸊鷉目等水鸟为鸟类群落的构成主体。不同季节鸟类多样性指数(H)依次为秋季迁徙期>春季迁徙期>夏季繁殖期>越冬期,鸟种由多至少依次为越冬期>秋季迁徙期>春季迁徙期>夏季繁殖期,鸟类数量由多至少依次为越冬期>春季迁徙期>秋季迁徙期>夏季繁殖期。从客流季节集中指数R值来看,碧海银沙旅游区客流量受季节影响变动明显,春、秋、冬三季客流量占比过低。对客流量与鸟类多样性相关指标进行相关性分析,发现二者整体呈负相关,月客流量与鸟类种数相关性较高。本研究探讨了滨海旅游与鸟类迁徙之间的关系,为滨海旅游景区在协调旅游与鸟类迁徙的时空错峰管理提供决策依据。  相似文献   

11.
Wind farming is a relatively new form of obtaining energy that does not cause air pollution or other forms of environmental degradation associated with fossil fuel technologies. However, their use impacts on the environment, and the current rate at which they are being put into operation, combined with poor understanding of their medium- and long-term impact, is a cause of concern. Wind farms represent a new source of impact and disturbance for birds that adds to the long list of disturbance factors caused by human activity, such as power lines, radio and television towers, highways, glass windows, the practice of poisoning, illegal hunting and overexploitation. Due to the precarious situation of several bird species and their decline, any additional cause of mortality may be significant and should give rise to increased attention and research. The aim of the present work is to analyse the effect of the “Sierra de Aguas” wind farm on bird density and abundance, flight behaviour, and bird mortality. Mortality rates did not increase due to the presence of the wind turbines. The results suggest that the presence and operation of the wind turbines did not have a clearly negative effect on passerine birds present in the region where wind farm is located. However, raptors used the space around the wind farm with lower frequency than prior to its existence, which represented a displacement of the home range of these species.  相似文献   

12.
Wind tunnels, in which birds fly against an artificially generated air flow, have since long been used to evaluate aerodynamic properties of steady bird flight. A new generation of wind tunnels has also allowed the many processes associated with migratory flights to be studied in captivity. We review how wind tunnel studies of aerodynamics and migratory performance together have helped advancing our understanding of bird migration. Current migration theory is based on the power‐speed relationship of flight as well as flight range equations, both of which can be evaluated using birds flying in wind tunnels. In addition, and depending on wind tunnel properties, performance during gliding and climbing flight, and effects of air pressure, humidity and turbulence on bird flight has been measured. Long‐distance migrant species have been flown repeatedly for up to 16 h non‐stop, allowing detailed studies of the energy expenditure, fuel composition, protein turnover, water balance, immunocompetence and stress associated with sustained migratory flights. In addition, wind tunnels allow the fuelling periods between migratory flights to be studied from new angles. We end our review by suggesting several important topics for future wind tunnel studies, ranging from on of the key questions remaining, the efficiency at which chemical power in converted to mechanical power, to new useful avenues, such as improving and calibrating the techniques used for tracking of individual birds in the wild.  相似文献   

13.
ABSTRACT Wind energy development represents significant challenges and opportunities in contemporary wildlife management. Such challenges include the large size and extensive placement of turbines that may represent potential hazards to birds and bats. However, the associated infrastructure required to support an array of turbines—such as roads and transmission lines—represents an even larger potential threat to wildlife than the turbines themselves because such infrastructure can result in extensive habitat fragmentation and can provide avenues for invasion by exotic species. There are numerous conceptual research opportunities that pertain to issues such as identifying the best and worst placement of sites for turbines that will minimize impacts on birds and bats. Unfortunately, to date very little research of this type has appeared in the peer-reviewed scientific literature; much of it exists in the form of unpublished reports and other forms of gray literature. In this paper, we summarize what is known about the potential impacts of wind farms on wildlife and identify a 3-part hierarchical approach to use the scientific method to assess these impacts. The Lower Gulf Coast (LGC) of Texas, USA, is a region currently identified as having a potentially negative impact on migratory birds and bats, with respect to wind farm development. This area is also a region of vast importance to wildlife from the standpoint of native diversity, nature tourism, and opportunities for recreational hunting. We thus use some of the emergent issues related to wind farm development in the LGC—such as siting turbines on cropland sites as opposed to on native rangelands—to illustrate the kinds of challenges and opportunities that wildlife managers must face as we balance our demand for sustainable energy with the need to conserve and sustain bird migration routes and corridors, native vertebrates, and the habitats that support them.  相似文献   

14.
Theobroma cacao plantings, when managed under the shade of rainforest trees, provide habitat for many resident and migratory bird species. We compared the bird diversity and community structure in organic cacao farms and nearby forest fragments throughout mainland Bocas del Toro, Panama. We used this dataset to ask the following questions: (1) How do bird communities using cacao habitat compare to communities of nearby forest fragments? (2) To what extent do Northern migratory birds use shaded cacao farms, and do communities of resident birds shift their abundances in cacao farms seasonally? (3) Do small scale changes in shade management of cacao farms affect bird diversity? Using fixed radius point counts and additional observations, we recorded 234 landbird species, with 102 species that were observed in both cacao and forest fragments, 86 species that were only observed in cacao farms, and 46 species that were restricted to forest fragments. Cacao farms were rich in canopy and edge species such as tanagers, flycatchers and migratory warblers, but understory insectivores were nearly absent from cacao farms. We observed 27 migratory species, with 18 species in cacao farms only, two species in forest only, and seven species that occurred in both habitats. In cacao farms, the diversity of birds was significantly greater where there was less intensive management of the canopy shade trees. Shade tree species richness was most important for explaining variance in bird diversity. Our study shows that shaded cacao farms in western Panama provide habitat for a wide variety of resident and migratory bird species. Considering current land use trends in the region, we suggest that action must be taken to prevent conversion away from shaded cacao farms to land uses with lower biodiversity conservation value.  相似文献   

15.
In order to meet carbon reduction targets, many nations are greatly expanding their wind power capacity. However, wind farm infrastructure potentially harms wildlife, and we must therefore find ways to balance clean energy demands with the need to protect wildlife. Wide-ranging carnivores live at low density and are particularly susceptible to disturbance from infrastructure development, so are a particular concern in this respect. We focused on Croatia, which holds an important population of wolves and is currently planning to construct many new wind farms. Specifically, we sought to identify an optimal subset of planned wind farms that would meet energy targets while minimising potential impact on wolves. A suitability model for wolf breeding habitat was carried out using Maxent, based on six environmental variables and 31 reproduction site locations collected between 1997 and 2015. Wind farms were prioritised using Marxan to find the optimal trade-off between energy capacity and overlap with critical wolf reproduction habitat. The habitat suitability model predictions were consistent with the current knowledge: probability of wolf breeding site presence increased with distance to settlements, distance to farmland and distance to roads and decreased with distance to forest. Spatial optimisation showed that it would be possible to meet current energy targets with only 31% of currently proposed wind farms, selected in a way that reduces the potential ecological cost (overall predicted wolf breeding site presence within wind farm sites) by 91%. This is a highly efficient outcome, demonstrating the value of this approach for prioritising infrastructure development based on its potential impact on wide-ranging wildlife species.  相似文献   

16.
Located at the shortest overland route between the Gulf of Mexico and the Pacific Ocean, Mexico's Tehuantepec Isthmus is a globally important migratory corridor for many terrestrial bird species. The Pacific coast of the Isthmus also contains a significant wetland complex that supports large multi‐species aggregations of non‐breeding waterbirds during the boreal winter. In recent years, extensive wind energy development has occurred in the plains bordering these wetlands, directly along the migratory flyway. Using recent studies of movement patterns of three marine‐associated bird species – reddish egrets Egretta rufescens, brown pelicans Pelecanus occidentalis, and red knots Calidris canutus – from the northern Gulf of Mexico, we assess the use of the isthmus as a migratory corridor. Our data provide evidence that marine birds from the Gulf region regularly overwinter along the Pacific coast of Mexico and use the isthmus as a migratory corridor, creating the potential for interaction with terrestrial wind farms during non‐breeding. This study is the first to describe migration by marine‐associated bird species between the Gulf of Mexico and Pacific coast. These data contribute new information toward ongoing efforts to understand the complex migration patterns of mobile marine species, with the goal of informing integrated conservation efforts for species whose year‐round habitat needs cross ecoregional and geopolitical boundaries.  相似文献   

17.
Conservation of migratory birds requires understanding the distribution of and potential threats to their migratory habitats. However, although migratory birds are protected under international treaties, few maps have been available to represent migration at a landscape scale useful to target conservation efforts or inform the siting of wind energy developments that may affect migratory birds. To fill this gap, we developed models that predict where four groups of birds concentrate or stopover during their migration through the state of Wyoming, USA: raptors, wetland, riparian and sparse grassland birds. The models were based on existing literature and expert knowledge concerning bird migration behavior and ecology and validated using expert ratings and known occurrences. There was significant agreement between migratory occurrence data and migration models for all groups except raptors, and all models ranked well with experts. We measured the overlap between the migration concentration models and a predictive model of wind energy development to assess the potential exposure of migratory birds to wind development and illustrate the utility of migratory concentration models for landscape-scale planning. Wind development potential is high across 15% of Wyoming, and 73% of this high potential area intersects important migration concentration areas. From 5.2% to 18.8% of each group’s important migration areas was represented within this high wind potential area, with the highest exposures for sparse grassland birds and the lowest for riparian birds. Our approach could be replicated elsewhere to fill critical data gaps and better inform conservation priorities and landscape-scale planning for migratory birds.  相似文献   

18.
Wind farms offer a cleaner alternative to fossil fuels and can mitigate their negative effects on climate change. However, wind farms may have negative impacts on birds. The East China Coast forms a key part of the East Asian–Australasian Flyway, and it is a crucial region for wind energy development in China. However, despite ducks being the dominant animal taxon along the East China Coast in winter and considered as particularly vulnerable to the effects of wind farms, the potential negative impacts of wind farms on duck populations remain unclear. We therefore assessed the effects of wind farms on duck abundance, distribution, and habitat use at Chongming Dongtan, which is a major wintering site for ducks along the East Asian–Australasian Flyway, using field surveys and satellite tracking. We conducted seven paired field surveys of ducks inside wind farm (IWF) and outside wind farm (OWF) sites in artificial brackish marsh, paddy fields, and aquaculture ponds. Duck abundance was significantly higher in OWF compared with IWF sites and significantly higher in artificial brackish marsh than in aquaculture ponds and paddy fields. Based on 1,918 high‐resolution satellite tracking records, the main habitat types of ducks during the day and at night were artificial brackish marsh and paddy fields, respectively. Furthermore, grid‐based analysis showed overlaps between ducks and wind farms, with greater overlap at night than during the day. According to resource selection functions, habitat use by wintering ducks was impacted by distance to water, land cover, human activity, and wind farm effects, and the variables predicted to have significant impacts on duck habitat use differed between day and night. Our study suggests that wintering ducks tend to avoid wind turbines at Chongming Dongtan, and landscape of paddy fields and artificial wetlands adjoining natural wetlands is crucial for wintering ducks.  相似文献   

19.
Land converted to coffee agriculture occupies >5 million hectares of what was once prime overwintering natural habitat in the American Neotropics for migrating birds. When tree canopy is retained or restored (i.e., shade‐grown), coffee farms can serve as habitat refuge for wildlife. Yet few studies have examined whether canopy tree identity impacts habitat quality for biodiversity. Specifically, whether or not certain tree species are disproportionately important for foraging insectivorous birds remains unclear. In this study, we quantified bird foraging activity on 22 tree species in two Latin American Bird Friendly© coffee farms. Specifically, we conducted timed observations on focal trees to determine 1) tree preferences, 2) foraging bird abundance, 3) foraging time, and 4) species richness of birds using each canopy tree species. We found that birds did not forage randomly, and instead exhibited preferences for particular native tree species. Nitrogen‐fixing Fabaceae were consistently used more frequently, supported more resident and migratory birds for longer periods of time, and supported more bird species than trees in other families. We posit that the potential mechanism contributing to tree preferences is the increase in insect abundance and diversity that provide high‐quality food for insectivores but do not present pest problems for coffee. Thus, tree species that support insects may provide multiple benefits for farmers in the form of bottom‐up soil fertilization and top‐down pest control. This study provides evidence that agroforestry land can be improved for birds of conservation concern by prioritizing canopy tree species that help birds and farm productivity.  相似文献   

20.
Wind power is a fast-growing energy source for electricity production, and some environmental impacts (e.g. noise and bird collision) are pointed out. Despite extensive land use (2600–6000 m2/MW), it is said that most of these impacts have been resolved by technological development and proper site selection. The results in this paper suggest that: (i) wind farms kill millions of birds yearly around the world, and the high mortality of rare raptors is of particular concern; (ii) wind farms on migration routes are particularly dangerous, and it is difficult to find a wind power site away from migration routes because there is no guarantee that migration routes will not vary; (iii) according to the presented model of collision probability, the rotor speed does not make a significant difference in collision probability; the hub is the most dangerous part, and large birds (e.g. raptors) are at great risk; and, (iv) based on the field observation of squirrels’ vocalisation (i.e. anti-predator behaviour), there are behavioural differences between squirrels at the wind turbine site and those at the control site. Noise from wind turbines (when active) may interfere with the lives of animals beneath the wind turbines.

US Government guidelines and the Bern Convention's report have described adverse impacts of wind energy facilities on wildlife and have put forward recommendations. In addition to these documents, the following points derived from the discussion in this paper should be noted for the purpose of harmonising wind power generation with wildlife conservation: (i) engineers need to develop a turbine form to reduce the collision risk at the hub; (ii) institute long-term monitoring, including a comparison between bird mortality before and after construction; and (iii) further evaluate impacts of turbine noise on anti-predator wildlife vocalisations.  相似文献   


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