黄腹角雉的巢址选择

１９９１￣１９９３年，在浙江省乌岩岭自然保护区对黄腹角雉的巢址选择进行了研究。野外工作共发现黄腹角雉巢１５个，其中８０％位于人工柳杉林中，营果树以柳杉为主，占７３．３％。主成分分析表明，影响黄腹角雉巢址选择的主要因素有４种，依次为：营巢树因素（包括营巢树的高度、胸径、巢位高度和巢上方的植被盖度）、地形因素（包括坡向和坡度）、海拔因素和位置因素。     

凉水自然保护区松鼠巢址选择的特征

2006 年6 月11 日至9 月27 日和2007 年8 月14 日至9 月21 日采用样线法,并结合定位观察的方法在凉水国家级自然保护区对松鼠的巢址选择进行了定量研究,共获取107 个巢样方和230 个对照样方。对每个样方分别测定了12 个巢树参数和7 个环境参数。统计分析结果表明,松鼠仅在针叶树上营巢,59.8 ± 4. 7% 的巢建于红松上,但对枝叶比红松更为浓密的云杉和臭冷杉有显著的选择性,而且显著倾向于在以云杉、臭冷杉为优势树种的生境中营巢。松鼠选择比较高大(树高21.5 ± 0.4 m)、活动通道比较多(3.6 ±0.1)的树营巢,巢树周围的树木密度(169 ± 4 株/ hm² )和多样性(辛普森指数0.51 ± 0.01)显著高于对照样方。巢址生境多位于南向的中、下坡位。巢址高12.4 ± 0.4 m,紧贴树干,多朝南。红松树上的巢多建于树冠的中下部,云杉和臭冷杉树上的巢多建于树冠的上部。松鼠巢对包括道路在内的林隙没有显著的回避。     

陇东地区金翅雀的巢址选择

为探究金翅雀(Chloris sinica)营巢是否偏好某些树种以及偏好原因,于2017—2019年4—8月,在陇东学院校园内,开展了金翅雀巢址选择调查。180个金翅雀巢址分析显示:金翅雀营巢利用圆柏(Juniperus chinensis)、刺柏(Juniperus formosana)、侧柏(Platycladus orientalis)、日本晚樱(Cerasus serrulata)等17种乔木,其中圆柏(χ2=13.6,df=1,P=0.000)和刺柏(χ2=9.8,df=1,P=0.002)是金翅雀选择的主要树种;与其他巢址比较,圆柏和刺柏巢址的巢树树冠直径(DNTC)、巢-缘距(DEC)和巢树-最近树距离(DT)显著小于其他树种巢址的相应参数,而圆柏和刺柏巢址的巢树树冠高度(HNTC)、巢-冠底距离(DBC)、巢树-草地距离(DM)、可利用林木数量(NT)和隐蔽度(CC)都显著大于其他树种巢址的相应参数(T或Mann-Whiteny U检验,全部P<0.05);差异显著的8个巢址参数(DNTC、DEC、DT、HNTC、DBC、DM、NT和CC)的因子分析表明,环境隐蔽...     

黑颈长尾雉的巢址选择

2004年至2005年,在广西百色岑王老山自然保护区对黑颈长尾雉(Syrmaticus humiae)的巢址选择进行了研究。野外工作中共发现5巢,其中3巢在针叶林中,2巢在灌草丛中。结果表明,黑颈长尾雉的巢都是选择在向阳的东南坡且位于坡的下位,靠近林缘、水源和林间小道。对巢址10 m×10 m和1 m×1 m植被样方不同层次盖度作统计发现,黑颈长尾雉巢址选择更多的依赖于灌木层和草本层的盖度。     

斑翅山鹑巢址选择的研究

１９９１－１９９３年在山西宁武县对斑翅山鹑的巢址选择进行了研究,野外工作中共发现６０个巢,其中绝大多数位于远离林地的农田或灌丝地带,６６．６７％的巢位于向阳的东南坡和西南坡上,对巢址与随机选取的非巢样点所进行的对比分析发现,在１２个栖地参数中,影响巢址选择的５个因素依次为：落叶的数量、地缘宽度、干草的数量、灌丛宽度和梯田高度,判别分析的结果表明,落叶的数量和干草的数量是区别巢址与非巢样点的两个最重     

海南鳽巢址选择的初步调查

1998～2004年6月,对海南鳽(Gorsachius magnificus)的4个巢址进行了研究。研究结果表明,靠近水源、具有一定坡度的高大阔叶林或针阔混交林的水域湿地、山、林环境因子组合的栖息地对海南鳽的巢址选择具有较高的适合程度。水域湿地有利于亲鸟寻找和获得充足的食物,保证雏鸟的生长需要;巢址多选择在坡度大于50。的山坡上。海南鳽对巢树的种类选择似乎不太严格,但可能对巢树和周围植被的物理性状有一定的要求。以高大、枝桠较多、枝叶繁茂的阔叶树或针叶树为特征,筑巢于阔叶林或针阔混交林中,植被覆盖度一般在80％以上,保证巢的稳固性及隐蔽性,以达到保护巢窝的目的。     

甘肃南部蓝马鸡的巢址选择

蓝马鸡(Crossoptilon auritum)是我国特有的雉类,仅分布在青海东部、东北部,甘肃西北部及南部,四川西北部以及宁夏西部。2007和2008年在甘肃南部林区对蓝马鸡巢址进行了研究。在发现的12个蓝马鸡巢中,4巢(33.3%)在乔木下,4巢(33.3%)在岩石上或者岩洞内,2巢(16.7%)在枯枝下,2巢(16.7%)在灌丛下。U检验和T检验表明,坡位、坡度、灌木高度、灌木数量、灌木盖度、0.5m植被盖度、1.0m植被盖度、2.0m植被盖度、干扰度等9个生态因子在巢址(n=12)与对照样方(n=24)中存在显著差异。对13个变量进行逐步判别分析,结果显示,高坡位、高林下植被盖度及低干扰度是蓝马鸡巢址优先选择的生态因子。     

四川南充市夜鹭的巢址选择

2006年3~6月,在四川省南充市太和保护区对夜鹭的巢址选择进行了研究。野外调查了夜鹭巢47个,对照样方26个,通过主成分分析和对比分析,表明影响夜鹭巢址选择的主要因子依次为:营巢树高度、植被平均高度、巢高、竹平均直径、隐蔽度、巢上方盖度、距水(西河)距离、距白鹭巢距离、植被盖度、巢下盖度。     

四川南充农田区乌鸫的巢址选择

2007年3～5月在四川省南充市近郊农田区域对乌鸫Turdus merula sowerbyi的巢址选择进行了研究.共调查57个巢址样方,通过主成分分析(PCA)提取到影响乌鸫巢址选择的6个主要因子,其累积贡献率达74.44%, 其中乔木因子的贡献率最高,达26.58%.农田区中,乌鸫在4月中旬开始营巢,营巢树平均高度为16.02±2.29 m,主要巢树种类是白杨.     

黑龙江扎龙自然保护区白枕鹤巢址选择特征

为了探讨白枕鹤Grusvipio的巢址选择特征,2007～2009年的4～5月,在黑龙江省扎龙自然保护区采用定点观察法、样方调查法、因子调查法和因子分析及显著性检验等,对白枕鹤的营巢生境类型和营巢生境特征进行了调查。结果表明,白枕鹤对营巢生境类型的要求比较单一,仅选择芦苇沼泽;巢址生境特征具有明显的偏好,即(1)距干扰区的距离多在1.5km以上(86.36%),(2)巢周的水深多小于16cm(95.45%),(3)巢周明水面面积多小于200m2(90.90%),(4)巢距火烧地的距离以1.0～2.5km居多(63.64%),(5)剩余苇丛面积多小于200m2(86.37%)、距剩余苇丛距离多大于30m(81.82%)、剩余苇丛密度多小于500株/m2(77.27%)、剩余苇丛高度以大于1.5m的居多(72.73%)。进一步分析表明,白枕鹤对营巢生境特征的要求具有普遍性和特殊性,表现出一定的适应能力,火烧地、剩余苇丛、干扰区和水是其营巢的主要环境特征。     

动物的生境选择

动物的生境选择颜忠诚陈永林（中国科学院动物研究所,北京１０００８０）ＨａｂｉｔａｔＳｅｌｅｃｔｉｏｎｉｎＡｎｉｍａｌｓ．ＹａｎＺｈｏｎｇｃｈｅｎｇ,ＣｈｅｎＹｏｎｇｌｉｎ（ＩｎｓｔｉｔｕｔｅｏｆＺｏｏｌｏｇｙ,ＡｃａｄｅｍｉａＳｉｎｉｃａ,Ｂｅｉｊｉ...     

Initial Effects of Wildfire on Freshwater Turtle Nesting Habitat

Natural wildfire regimes are important for ecosystem succession but can have negative ecological effects depending on fire characteristics. A portion of a granite rock barrens landscape that extends along the eastern shoreline of Georgian Bay, Lake Huron to eastern Ontario, Canada, burned in 2018 during a wildfire that affected >11,000 ha. This landscape is a biodiversity hotspot providing habitat for many species at risk where freshwater turtles nest in soil deposits in cracks and crevices in the bedrock dominated by moss (Polytrichum spp.) and lichen (Cladonia spp.) cover. To assess the initial effect of wildfire on freshwater turtle nesting habitat, we measured soil depths and estimated moss, lichen, and vascular plant cover at 2 morphology types (crevice, flat) in burned and unburned areas of the landscape. The probability that burned flat plots supported soil was near zero; the burned flat plots had 98% less soil volume compared to unburned flat plots. Although crevices were more resistant to soil loss, burned crevices still had a 15% lower probability of having soil and 35% less soil volume compared to unburned crevice plots. We estimated nest site availability by calculating the number of locations with shallow (5–10 cm), intermediate (10–20 cm), and deep (>20 cm) soils required for a small (5 cm × 5 cm) or medium (10 cm × 10 cm) nest chamber. Overall, the burned open rock barrens had 71–73% fewer sites with suitable soil depth and volume for a nest chamber of either size. Furthermore, burned plots had almost no lichen and moss cover but were dominated by bare soil, forbs, and jack pine (Pinus banksiana) seedlings. Although the loss of tree cover in previously forested areas may increase nest site availability for freshwater turtles in newly open areas, we suggest that organic soil combustion and soil erosion may require restoration activities in the post-fire landscape to support successful nesting of at-risk turtles. © 2020 The Wildlife Society.     

Fine-Scale Habitat Selection by Breeding White-Tailed Ptarmigan in Colorado

Species distributions are influenced by climate and topography in alpine ecosystems, yet resource selection studies of alpine species are uncommon. Basic characteristics of habitats used by alpine-endemic white-tailed ptarmigan (Lagopus leucura) have been described to explain foraging behavior, morphology, and survival in many alpine regions; however, there is a lack of information about fine-scale habitat selection for nesting and brood-rearing, particularly in the southern extent of the species’ range. Few studies have tested whether nest and brood-site selection by white-tailed ptarmigan are influenced by fine-scale components such as vegetation and arthropod communities. We assessed these fine-scale habitat characteristics analyzing paired use-available resource selection for nest (n = 61) and brood (n = 54) sites. We used conditional logistic regression for data collected in 2 alpine areas along the Front Range of Colorado, USA, during 2014 and 2015. We evaluated resource selection at larger (patch) and finer (nest site) scales. Nest-site selection at the patch scale was best predicted by cover (%) of forage forbs, rock and gravel, and shrubs. Forage forb cover explained more variation in our top nest model at the patch scale when compared to models with specific vegetation species. Females placed their nests along elevational gradients but more so at lower elevations and selected for less graminoid cover at the nest-site scale. Brood habitat selection at the patch level was influenced by cover (%) of rock and gravel and proximity to shrubs (m). Analysis of a subset of our brood data (n = 34) revealed females selected brood habitat that contained high arthropod abundance (e.g., Cicadellidae) over high vegetation cover, likely as a response to meet dietary requirements of chicks. Our results demonstrate how and where white-tailed ptarmigan are currently selecting these different breeding sites in Colorado's alpine, giving us insight into consequences this alpine-endemic bird may face if their breeding habitat is altered. © 2019 The Wildlife Society.     

Extensive Use of Intertidal Habitat by Shorebirds Outside Protected Nesting Areas

Conservation of shorebirds throughout their breeding and migratory ranges has become a priority as shorebird populations decline globally. Along the North Atlantic Coast, management efforts have particularly focused on preserving nesting habitat for piping plovers (Charadrius melodus), which are protected under the Endangered Species Act. It is unclear whether these conservation measures suffice to protect foraging habitat for piping plovers and other shorebirds on stopover during migration along the Atlantic Flyway. To evaluate the extent to which conservation of piping plover nesting areas extends to all habitats used by plovers, and to determine whether these protections also benefited non-breeding migratory shorebirds in the region, we conducted weekly shorebird surveys, recording the number and locations of piping plovers and other species, during northward and southward migration on Fire Island and Westhampton Island, New York, USA, from 2014–2016. We used canonical correspondence analysis (CCA) to assess the degree of spatiotemporal overlap between breeding plovers, foraging plovers, and other migratory shorebirds that temporarily stage at the site. The spatiotemporal distribution of migratory shorebirds matched more closely with piping plovers seen during foraging than piping plovers observed tending nests and engaging in other breeding activities. Migratory shorebirds and foraging piping plovers were more abundant and frequent in wet intertidal zones outside of fenced-off nesting areas, which were not protected under current management regimes. Therefore, additional protection of piping plover foraging habitat could benefit plovers and migratory shorebirds that use similar feeding grounds during stopover on northward and southward migration. © 2020 The Wildlife Society.     

Greater Sage-Grouse Nesting Habitat: The Importance of Managing at Multiple Scales

Abstract: Considering habitat selection at multiple scales is essential to fully understand habitat requirements and management needs for wildlife species of concern. We used a hierarchical information-theoretic approach and variance decomposition techniques to analyze habitat selection using local-scale habitat variables measured in the field and landscape-scale variables derived with a Geographic Information System (GIS) for nesting greater sage-grouse (Centrocercus urophasianus) in the Powder River Basin (PRB), Montana and Wyoming, USA, 2003–2007. We investigated relationships between habitat features that can and cannot be mapped in a GIS to provide insights into interpretation of landscape-scale—only GIS models. We produced models of habitat selection at both local and landscape scales and across scales, yet multiscale models had overwhelming statistical and biological support. Variance decomposition showed that local-scale measures explained the most pure variation (50%) in sage-grouse nesting-habitat selection. Landscape-scale features explained 20% of pure variation and shared 30% with local-scale features. Both local- and landscape-scale habitat features are important in sage-grouse nesting-habitat selection because each scale explained both pure and shared variation. Our landscape-scale model was accurate in predicting priority landscapes where sage-grouse nests would occur and is, therefore, useful in providing landscape context for management decisions. It accurately predicted locations of independent sage-grouse nests (validation R² = 0.99) and showed good discriminatory ability with >90% of nests located within only 40% of the study area. Our landscape-scale model also accurately predicted independent lek locations. We estimated twice the amount of predicted nesting habitat within 3 km of leks compared to random locations in the PRB. Likewise we estimated 1.8 times more predicted nesting habitat within 10 km of leks compared to random locations. These results support predictions of the hotspot theory of lek placement. Local-scale habitat variables that cannot currently be mapped in a GIS strongly influence sage-grouse nest-site selection, but only within priority nesting habitats defined at the landscape scale. Our results indicate that habitat treatments for nesting sage-grouse applied in areas with an unsuitable landscape context are unlikely to achieve desired conservation results.     

Winter Versus Summer Habitat Selection in a Threatened Ground Squirrel

Hibernation is a strategy many species employ to survive periods of thermal stress or resource shortage (e.g., harsh thermal conditions, food limitations) and habitat requirements of hibernating species may differ between summer (the active season) and winter (during hibernation). Accounting for seasonal differences in habitat affinities will help ensure that management actions are more beneficial and land-use policies are more appropriate. The northern Idaho ground squirrel (Urocitellus brunneus) is a federally listed threatened species that is in decline and hibernates for approximately 8 months per year. We collared northern Idaho ground squirrels in Adams County, Idaho from 2013–2017. The majority of northern Idaho ground squirrels we collared selected hibernacula outside of the areas they used during the active season. Furthermore, habitat features of hibernacula locations differed from habitat features of active-season areas. Hibernacula locations had greater canopy closure compared to active-season locations (36.9% and 7.0% canopy closure, respectively) and hibernaculum habitat features (particularly distance to nearest log) influenced overwinter survival. Our results suggest that recovery efforts for northern Idaho ground squirrels should include protection and management for the full range of habitat conditions used throughout summer and winter. More broadly, we emphasize the need to identify and protect habitat during all seasons because habitat requirements can differ substantially during different portions of an animal's annual cycle and effective conservation will require management of year-round habitat needs. © 2020 The Wildlife Society.     

黄腹山鹪莺的营巢特征

营巢对鸟类的生长繁殖有着重要影响。为此,从2007年3-9月在广东省肇庆江溪村对研究地中的黄腹山鹪莺(Prinia flaviventris)的巢进行标记和测量,并以巢址为中心做5m×5m样方调查,通过主成分分析研究其巢址选择,结果表明:1)黄腹山鹪莺营巢时间始于3月中旬,4月达到高峰,至7月底结束;2)在13种植物上发现44个巢,其中在象草(Pennisetum purpureum)上最多,有27个,其次为加拿大飞蓬(Erigeron canadensis),4个,其他植物皆为1—2个;3)巢皆为不规则的球状巢,巢材除动植物性材料外,均有人工制品;巢内空间与巢整体大小较为一致;4)影响巢址选择的主要因素4种,依次为:距最近水源距离(29.89%)、距最近道路距离(16.45%)、距最近灌木距离(12.92%)、距水面高度(11.69%)。据此认为黄腹山鹪莺的营巢是对草本植物环境的适应,而其尾羽的逆向变化对营巢是有利的,起到增加飞行灵活性和减少筑巢投资的效果。     

Nesting Habitat of the Lilac-crowned Parrot in a Modified Landscape in Mexico

Parrot populations are being increasingly pressured to occupy modified or fragmented landscapes, yet little is known of the habitat requirements of most species, particularly with regard to the effects on breeding habitat. We evaluated nesting habitat of the lilac-crowned parrot Amazona finschi in the modified landscape of coastal Michoacan in Mexico. We located 90 parrot nests in 12 tree species in Michoacan, with lilac-crowned parrots presenting a narrow niche-breadth of tree species used for nesting. Considering an additional 82 nest trees recorded for lilac-crowned parrots in Jalisco, we determined a 51 percent similarity in cavity resource use by parrots in the two dry forest regions. Overall, the predominant nest tree species with 76 percent of nests were Astronium graveolens , Piranhea mexicana , Brosimum alicastrum , and Tabebuia spp., all characteristic of semi-deciduous forest. Only 8 percent of nests occurred in trees characteristic of deciduous forest. Parrots utilized large trees with canopy level cavities as nest sites, and preferred conserved semi-deciduous forest for nesting, with fewer nests than expected in deciduous forest and transformed agricultural land. Nest areas in semi-deciduous forest occurred on significantly steeper terrain, as remnant semi-deciduous forest is restricted to steep ridges and canyons. Those parrot nests in modified habitats and forest patches were located near to continuous forest, with nest trees in open agricultural land being significantly closer to continuous forest than nests in disturbed forest patches. These results demonstrate the importance of conserved semi-deciduous forest as breeding habitat for the threatened, endemic lilac-crowned parrot, making wild populations of the species vulnerable to the high rate of transformation and fragmentation of tropical dry forest.     

Using Mountain Lion Habitat Selection in Management

Wildlife agencies are generally tasked with managing and conserving species at state and local levels simultaneously. Thus, it is necessary for wildlife agencies to understand basic ecological processes of a given species at multiple scales to aid decision making at commensurately varied spatial and behavioral scales. Mountain lions (Puma concolor) occur throughout California, USA, and are at the center of a variety of management and conservation issues. For example, they are genetically and demographically at risk in 1 region yet apparently stable and negatively affecting endangered species in another. Currently, no formal plan exists for mountain lions in California to deal with these diverse scenarios involving issues of local mountain lion population viability and problems related to predation of endangered species. To facilitate development of a state-wide management and conservation plan, we quantified habitat selection by mountain lions at 2 spatial scales across the range of environmental conditions in which the species is found in California. Our analyses used location data from individuals (n = 263) collared across the state from 2001–2019. At the home range scale, mountain lions selected habitat to prioritize meeting energetic demands. At the within home range scale, mountain lions avoided areas of human activity. Further, our analyses revealed 165,350–170,085 km², depending on season, of suitable mountain lion habitat in California. Fifty percent of the suitable habitat was on unprotected lands and thus vulnerable to development. These habitat selection models will help in the development of a state-wide conservation and management plan for mountain lions in California by guiding mountain lion population monitoring through time, prioritization of habitat to be conserved for maintaining demographic connectivity and gene flow, and efforts to mediate mountain lion-prey interactions. Our work and application area will help with wildlife policy and management decisions related to depredation problems at the local scale and issues of habitat connectivity at the statewide scale. © 2019 The Wildlife Society.