四川洪雅县赤腹松鼠巢址选择研究

赤腹松鼠Callosciueus erythraeus在四川省洪雅县已经成为第一大森林害鼠.为了揭示赤腹松鼠巢址选择特征并为控制该物种的危害服务,2008年3～8月采取样线法对洪雅县赤腹松鼠的巢址选择状况进行了调查.共发现81棵巢树,对其巢位参数的统计显示,赤腹松鼠可在11种阔叶树和3种针叶树上营巢,对柏木Cpuressus funebris和楠木Phoebe zhennan有明显选择性,分别为营巢树数量的34.6%和33.3%.营巢树平均高度为18.6 m±0.6 m,巢距地面平均高度为16.2 m±0.5 m,巢位置一般靠近树的顶端,多朝东、南和东南方向,76.5%的巢位于树干与树枝的交界处.对无重复取样的巢址样方(n=65)和对照样方(n=65)中15个生境因子的对比分析表明,赤腹松鼠倾向在乔木平均高度较高、林下灌木盖度相对较高、坡度较大的生境中营巢.     

凉水自然保护区松鼠和星鸦贮食生境选择差异

2003 年9 月30 日～2005 年10 月8 日,在黑龙江凉水国家级自然保护区,应用样方调查法, 采用Vanderploeg和Scavia 选择系数Wi和选择指数Ei作为衡量指标,对松鼠和星鸦贮食生境选择进行了研究。结果表明, 二者贮食生境选择优先顺序略有不同,松鼠偏爱的贮食生境依次是: 云杉林、原始红松林、人工红松林、针阔混交林、人工云杉林、白桦林、针叶混交林、人工落叶松林、阔叶混交林、冷杉林和其它。星鸦对贮食生境的偏爱程度依次为: 人工红松林、原始红松林、云杉林、人工云杉林、针阔混交林、阔叶混交林、白桦林、针叶混交林、人工落叶松林、冷杉林和其它。在对贮食微生境因子的选择利用上, 二者大致相同,只是在对优势灌丛的选择上略有差异, 松鼠优先选择在狗枣猕猴桃优势灌丛内贮藏红松种子, 而星鸦优先选择在刺五加优势灌丛内贮食。松鼠和星鸦贮食生境选择的差异将对随后的红松天然更新过程产生不同的影响。     

画眉的巢址选择

画眉巢在研究地区多营造于阔叶林、杉木幼林地和水杉林等生境近地面的灌丛中 ,巢主要以山胡椒叶、麻栎叶、禾本科枯草和细小枯枝等构成 ,距地面高 1 5 6cm(n =1 0 )。用 1 0m× 1 0m样方法 ,对巢址的利用区和对照区进行统计分析表明 ,小生境的参数方面存在显著性差异 (Z =-2 5 9,P =0 0 1 )。 1 0m层的盖度、草本层的高度以及坡位、坡向等地形因素直接影响着画眉对巢址的选择。     

凉水自然保护区松鼠（Sciurus vulgaris）贮食生境选择

2003年10月~2004年4月,在黑龙江省小兴安岭凉水国家级自然保护区,应用跟踪观察法、样线调查法、样方调查法等研究方法,采用Vanderploeg和scavia选择系数Wi和选择指数Ei作为衡量指标,对松鼠贮食红松种子生境选择进行了研究。研究表明,松鼠贮食对生境具有选择性:以主要林型为划分标准,松鼠偏爱贮食生境依次为:原始红松林,云杉林,人工云杉林,针叶混交林,人工落叶松林,针阔混交林,阔叶混交林,次生白桦林和人工红松林。在原始红松林内,松鼠对微生境的利用存在选择性差异:松鼠对郁闭良好(郁闭度大于0.6)、灌丛密度中等、倒木和枯立木密度中等(1~5个)、盗食动物活动较弱(大林姬鼠Apodemus peninsulae为主要盗食动物)的原始红松林生境表现出较强的选择性(Ei>0.2);而对坡度小于5°、基质为霉菌土、倒木和枯立木密度较高(大于5个)、草本盖度较高、盗食动物活动中等(花鼠Eutamias sibiricus为主要盗食动物)的原始红松林生境表现出较强的负选择性(Ei<-0.2),对阴坡表现出强烈的回避性(Ei=-0.5368)。     

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。     

应用资源选择函数研究朱Huan的巢址选择

本文介绍了资源选择函数的原理与方法,并分析了朱Huan(Nipponia nippon)的巢址选择。我们将上述结果与主成分分析的结果进行了比较,发展两种方法都显示水田面积,营巢树高度,海拔高度和人类干扰程度对朱Huan巢址选择有较大影响,而巢向,巢上郁闭度,坡向和坡度对朱Huan影响较小。然而,两种方法也有明显的差异,资源选择函数显示营巢地的坡位非常重要,而主成分分析显示植被密度比较重要。分析表明资源选择函数更好地反映了多种生境因素对朱Huan巢址选择的影响,本文探讨了应用资源选择函数所必须注意的对照样方选择和参数的独立性问题,并提出了对朱Huan保护工作的建议。     

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。     

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...     

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。     

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。     

The effects of hoarding habitat selection of Eurasian red squirrels (Sciurus vulgaris) on natural regeneration of the Korean pines

Cone-cores discarded by Eurasian red squirrels were used to study the habitat selection of Korean pine-seeds hoarding, in forest patch Nos. 16 and 19 in Liangshui Nature Reserve, China. Ten transects with a total length of 15 km were uniformly set, and data from 343 valid samples were collected in a 369 hm² area. One hundred and eighty four were hoarding samples which were determined according to the cluster analysis based on the number of the cone-cores, while the other 159 were control samples. The principal component analysis, using 11 habitat factors, suggested that the distance from Korean pine forest, forest type, number of Korean pine seedlings, density and type of bush significantly influenced the habitat selection of hoarding by Eurasian red squirrels. The results of Bailey’s method indicated that the squirrels showed (1) preference for natural coniferous forest, natural fir and spruce forest and planted spruce forest; (2) avoidance of planted Korean pine forest and planted larch forest; and (3) random use of natural Korean pine forest. Moreover the distance from the Korean pines in the range of 150–600 m showed no effect on the habitat selection of hoarding by the Eurasian red squirrels. More than 50% of the cone-cores were discarded in either fringe or gap of the Korean pine forest with more cone-cores found at <300 m than at 300 m away (One-Way ANOVA; df = 3, 183, F = 5.76, p = 0.0009). This demonstrated that the Eurasian red squirrels could take the cone-cores out of the Korean pine forest. The density of bushes in samples of hoarding area was significantly lower than that in control samples (Kruskal–Wallis test; df = 1, χ² = 83.99, p < 0.0001). The number of the Korean pine seedlings in samples of hoarding area was significantly higher than that in the control samples (Kruskal–Wallis test; df = 1, χ² = 104.13, p < 0.0001). This illustrated that the hoarding habitat favoured the germination of the Korean pine seedlings. In conclusion the behavior of hoarding Korean pine seeds by the Eurasian red squirrels can promote the regeneration and dispersal of the Korean pines.     

The effects of hoarding habitat selection of Eurasian red squirrels (Sciurus vulgaris) on natural regeneration of the Korean pines

Cone-cores discarded by Eurasian red squirrels were used to study the habitat selection of Korean pine-seeds hoarding, in forest patch Nos. 16 and 19 in Liangshui Nature Reserve, China. Ten transects with a total length of 15 km were uniformly set, and data from 343 valid samples were collected in a 369 hm² area. One hundred and eighty four were hoarding samples which were determined according to the cluster analysis based on the number of the cone-cores, while the other 159 were control samples. The principal component analysis, using 11 habitat factors, suggested that the distance from Korean pine forest, forest type, number of Korean pine seedlings, density and type of bush significantly influenced the habitat selection of hoarding by Eurasian red squirrels. The results of Bailey’s method indicated that the squirrels showed (1) preference for natural coniferous forest, natural fir and spruce forest and planted spruce forest; (2) avoidance of planted Korean pine forest and planted larch forest; and (3) random use of natural Korean pine forest. Moreover the distance from the Korean pines in the range of 150–600 m showed no effect on the habitat selection of hoarding by the Eurasian red squirrels. More than 50% of the cone-cores were discarded in either fringe or gap of the Korean pine forest with more cone-cores found at <300 m than at 300 m away (One-Way ANOVA; df = 3, 183, F = 5.76, p = 0.0009). This demonstrated that the Eurasian red squirrels could take the cone-cores out of the Korean pine forest. The density of bushes in samples of hoarding area was significantly lower than that in control samples (Kruskal–Wallis test; df = 1, χ² = 83.99, p < 0.0001). The number of the Korean pine seedlings in samples of hoarding area was significantly higher than that in the control samples (Kruskal–Wallis test; df = 1, χ² = 104.13, p < 0.0001). This illustrated that the hoarding habitat favoured the germination of the Korean pine seedlings. In conclusion the behavior of hoarding Korean pine seeds by the Eurasian red squirrels can promote the regeneration and dispersal of the Korean pines.     

Hoarding habitat selection of squirrels (Sciurus vulgaris) in Liangshui Nature Reserve, China

This study was conducted during October 2003–April 2004 in the Liangshui National Nature Reserve of the Xiao Xing'an Mountains of Northeast China. Results showed that hoarding behavior of squirrels exhibited selectivity. The preference order of hoarding habitat selection of squirrels is as follows: original Korean pine forest, secondary natural fir forest, artificial fir forest, mix-conifer leaf forest, artificial fallen leaves pine forest, mix-conifer-broadleaf forest, mix-broadleaf forest birch forest, and artificial Korean pine forest. Compared with the existing results, using the cache spots as an index, the order of habitat selection changed, revealing that this research should include more factors, such as pilferage from other animals and secondary dispersal by the squirrels or other species. The Vanderploeg and Scavia selectivity indexes, Wi and Ei, were used to evaluate the use of microhabitat by squirrels in the original Korean pine forest. Results indicated that the squirrels exhibited a significant microhabitat utilization pattern: (1) Squirrels prefer to use the microhabitat in original Korean pine forest with high canopies, the medium shrubby density, and the medium stub density, where pilferage animals are few (Ei > 0.2); (2) Squirrels did not prefer to use the microhabitat in the original Korean pine forest with a low slope degree, high density of fallen logs and stumps, a high herbage coverage, and an abundance of pilferage animals (Ei < ?0.2), and they showed an aversion for a shaded slope (Ei = ?0.5368). The selectivity of microhabitat utilization for the hoarding behavior of squirrels plays an important role in determining the spatial pattern of Korean pine seedlings.     

A systematic review into the suitability of urban refugia for the Eurasian red squirrel Sciurus vulgaris

1. Urban growth and intensification are projected to increase as the global human population increases. Historically, urban areas have been disregarded as suitable wildlife habitat, but it is now known that these areas can be biodiverse and that wildlife species can adapt to the environmental conditions. One such urban-dwelling species is the Eurasian red squirrel Sciurus vulgaris, which has suffered population declines in several countries throughout its range in recent decades.
2. The current published literature was systematically reviewed to determine whether or not urban habitats are suitable refugia for red squirrels, through identifying and discussing key topics regarding the urban ecology of red squirrels.
3. Urban environments can support higher population densities of red squirrels than rural areas, probably due to the widespread and reliable provision of anthropogenic supplemental food alongside natural food sources. The availability and quality of urban greenspaces are important determinants of the suitability of urban habitats for red squirrels, as they provide natural food sources and nesting sites. Despite the barriers present in urban landscapes (e.g. roads), red squirrels can still disperse and maintain gene flow at the population level.
4. Road traffic accidents appear to be a significant cause of mortality in some urban red squirrel populations, and seasonal peaks of mortality occur during the autumn months. Diseases (e.g. squirrelpox virus) can also be a significant cause of mortality, although effects differ between populations and depend on whether grey squirrels Sciurus carolinensis are present. Many of the predation events that affect red squirrels appear to be due to free-ranging domestic and feral cats Felis catus, although there is currently little evidence to suggest that predation is a limiting factor for urban red squirrel populations.
5. We conclude that urban areas can be suitable refugia for red squirrels, provided that high-quality greenspaces are maintained. Mitigation measures may also be necessary to reduce population mortality and to prevent disease outbreaks.

     

凉水自然保护区松鼠贮藏红松种子距离的初步测量与分析

2006年10月,应用线牌标记红松(Pinus koreansis)球果,采用人工放置实验和定点观察相结合的方法,对松鼠(Sciurus vulgarls)贮藏红松种子距离进行了初步研究与分析.结果表明,不同放置点的红松球果堆被松鼠发现并捕食的时间不一致,放置在人为干扰较强地点(旅游步道边)的红松球果最后被搬运走,但各放置点的红松球果均在放置10 h内全部消失.新球果(2006年)和旧球果(2005年)均被松鼠捕食并贮藏,但松鼠优先选择搬运新球果.实验共放置人工标记的球果110枚,当场被取食的球果8枚,其中花鼠(Eutamias sibiricus)当场取食4枚新球果,松鼠当场取食4枚,均为旧球果;其余102枚球果被搬运并贮藏.以放置点为圆心,以300 m为搜索半径,共回收标志球果47枚,回收率为46.1%.     

凉水自然保护区松鼠的越冬行为策略

在2006 年冬季预观察的基础上,于2007 年10 月31 日至2008 年3 月25 日在40 hm2 范围内使用无线电颈圈和彩色塑料颈圈标记8 只松鼠。结合无线电追踪技术和雪地痕迹技术,采用目标取样法对凉水自然保护区冬季松鼠行为进行了连续21 周的定位观察,以研究松鼠行为节律、空间行为和重取行为对冬季低温条件的响应。结果表明,松鼠冬季的活动节律为单峰型,随着气温的下降显著延后出巢时间(Kendall τ test;n = 21,r =- 0.92,τ = - 0.86,P < 0. 0001), 缩短活动时长(Kendall τ test; n = 21,r =0.80,τ = 0.68,P <0.0001)。松鼠冬季家域近似椭圆形(面积2.46 ±0.09 hm² ), 未见个体间家域重叠。秋季松鼠将红松种子分散贮藏于整个家域范围内,但重取行为相对集中于几个主要区域(重取区)。依据巢和重取区的位置特征及其利用率可将家域划分为3 个部分:主区位于家域的中段,辅区靠近红松母树林,次辅区位于家域远离红松母树林一侧。贮藏的红松种子是松鼠冬季唯一的食物来源。在冬季的不同阶段,松鼠对不同重取区的利用率显著不同(初冬,Kruskal-
Wallis test;df = 2, x² = 5.65, P = 0.0594; 隆冬,Kruskal-Wallis test;df = 2,x² = 14.24, P = 0.0008; 晚冬,One-Way ANOVA Test,df = 2,18, F = 7.00,P = 0.0056), 位于主区(初冬利用率37.8 ± 7.7% ,隆冬利用率80.5 ±9.2% ,晚冬利用率40.5 ±2.7% )和辅区(初冬利用率41.8 ± 5.9% ,隆冬利用率14.8 ± 9.2% ,晚冬利用率37.8 ± 4.9% )的重取区是松鼠的主要重取区。随着时间推移空取率显著提高(Kruskal-Wallis test;df = 2,x² = 16.60,P = 0.0002)的现象提示松鼠很可能依靠空间记忆取回贮藏的食物。轮换利用多个巢(6 ± 1)有助于降低松鼠被天敌捕食的风险。这些巢都分布在重取区附近,巢的利用与重取区的利用显著相关(Kendall τ test;主区:n = 217,r = 0.79,τ = 0.6256,P = 0.0003;辅区:n = 171,r = 0.67,τ = 0.6186,P = 0.0006;次辅区:n = 88,r = 0.74,τ = 0.6565,P = 0.0006),松鼠通常取食后即直接进入就近的巢过夜,有助于松鼠减少
能量损耗。多域集中重取及相应的巢轮换策略是松鼠对冬季低温环境及天敌捕食压力的综合响应。     

凉水自然保护区松鼠与星鸦对红松种子分散贮藏的特征分析

2005年9月30日～10月8日在凉水保护区,通过野外分层抽样和系统抽样调查松鼠(Sciurus vulgaris)和星鸦(Nucifraga caryocatactes)的贮点特征,初步估算了主要生境内的贮食密度和贮藏量。松鼠贮点的平均大小为(3·02±0·11)粒,平均深度为(2·67±0·08)cm;星鸦贮点的平均大小为(3·21±0·22)粒,平均深度为(2·73±0·15)cm。松鼠、星鸦的贮点大小和深度均无显著差异。原始红松林内的贮食密度和贮食量最大,这和松鼠的贮食行为密切相关。保护区内贮食动物的贮食总量为(11876757±812304)粒,其中松鼠的贮食量为(8686312±683360)粒,星鸦的贮食量为(3190444±410377)粒。动物的贮食行为是影响红松天然更新的重要因子之一,对红松的天然更新有重要意义。