海南岛尖峰岭热带山地雨林林下鸟类群落研究

从 2 0 0 0年 5月到 2 0 0 2年 3月 ,用网捕法对海南岛尖峰岭热带山地雨林 (包括原始林和次生林 )林下鸟群落进行研究。共张网 3 992 .7网· h,捕到林下鸟 3 12只 40种 ,隶属于 6个目 11个科。林下鸟群落虽然以小于 2 5g重的雀形目鸟类占优势 ,但许多个体较大的非雀形目鸟类也到林下活动 ,最大个体重达 3 70 g,大于 10 0 g重的个体占整个林下鸟生物量的比例较大。尖峰岭热带山地雨林中的林下鸟以食虫鸟为主 ,食虫鸟占整个林下鸟种数的 70 .0 %、鸟数量的 77.56% ;食果鸟虽然占第 2位 ,但其所占比例较小。林下鸟的种类组成和密度存在季节变化。留鸟是林下鸟最重要的成分 ,留鸟占鸟类种类的比例超过 85% ,留鸟的捕获数量占整个捕获鸟类数量的比例超过 90 % ;迁徙鸟的种类和数量均较少 ,对林下鸟群落的季节变化影响不大。原始林与演替 40 a后的次生林林下鸟平均网捕率相近但林下鸟群落种类组成不同 ,其种的相似性仅为 0 .3 5。     

西双版纳勐养旱季季风常绿阔叶林的林下鸟类群落组成和特点

2008年10月—2009年3月,用网捕法对西双版纳勐养季风常绿阔叶林林下鸟类群落进行了研究。共张网15 840网·h,捕到林下鸟类90种1 423只,隶属28科7目。优势种为银胸丝冠鸟(Serilophus lunatus)、褐脸雀鹛(Alcippe poioicephala)、白喉冠鹎(Alophoixus pallidus)、金眶鹟莺(Seicercus burkii)、白尾蓝地鸲(Cinclidium leucurum)、黑胸鸫(Turdus dissimilis)、棕头幽鹛(Pellorneum ruficeps)、棕胸雅鹛(Trichastoma tickelli)等8种。留鸟为林下鸟类主要成分,其捕获数量,占总数量的89.3%。平均网捕率9.0只/(100网·h),月份变化极显著(x²_{5, 282}=, P=0.000);2008年12月平均网捕率最高,为（12.5±1.3）只/(100网·h);2009年2月最低,为（5.2±0.6）只/(100网·h)。林下鸟类群落呈现多物种而低密度特征。画眉科鸟类优势地位不明显。国家二级保护鸟类银胸丝冠鸟是本地区捕获数量最多的鸟,其栖息地需重点保护。     

秦皇岛雀形目鸟类环志数量变化及其影响因素

鸟类种群数量变动及其机制是种群生态学研究的重要内容。本文分析了2005—2019年河北秦皇岛雀形目鸟类环志数量的变化,并探讨了数量变化的影响因素,以期为当地鸟类及其栖息地的保护提供基础资料。我们选择了环志数量较多的食虫鸟柳莺科、鹟科、绣眼鸟科、山雀科以及食谷鸟鹀科和燕雀科等雀形目鸟类,研究其环志数量变动趋势。结果表明,除鹀科外,其余5个科的鸟类,以及黄眉柳莺(Phylloscopus inornatus)、燕雀(Fringilla montifringilla)和黄胸鹀(Emberiza aureola)的环志数量呈下降的趋势。雀形目鸟类环志数量的下降与当地的虫害防治导致的食物缺少、非法猎捕和当地经济开发等人为活动干扰有关。最后,从虫害防治、人为活动和公众教育等方面提出了针对性的保护建议。     

斑块生境中食果鸟类对南方红豆杉种子的取食和传播

生境斑块化对食果鸟类的移动行为产生影响,进而影响其对植物种子的传播格局和效率。南方红豆杉(Taxus chinensis var.mairei)是我国一级保护植物,在南方山区多因人为干扰而呈斑块状分布。2011年,2012年10月底到12月中,以分布于福建梅花山国家级自然保护区红豆杉生态园中南方红豆杉种群为对象,研究斑块生境中鸟类对南方红豆杉种子的取食和传播行为,并评估专性鸟类和泛性鸟类的传播效率。结果发现:南方红豆杉源斑块共吸引22种食果鸟类取食红豆杉种子,并与13种鸟类形成了种子传播关系。不同年间,黑短脚鹎(Hypsipetes leucocephalus)都是植物的主要传播鸟类,而其他鸟类传播者种类具有一定的年间变化。生境斑块化导致专性鸟类黑短脚鹎和泛性鸟类红嘴蓝鹊(Urocissa erythrorhyncha)种子传播效率差异。与红嘴蓝鹊相比,黑短脚鹎飞行的平均距离较短((16.3±11.0)m,Mean±SD,n=125),传播距离相对较近;且它们取食后偏好在源斑块中活动,喜栖息在同种成树、甜楮(Castanopsis eyrei)及其他阔叶树等栖树上。红嘴蓝鹊取食后常在斑块间移动,常停歇在同种成树和毛竹(Phyllostachys heterocycla)上,传播距离相对较远((24.9±20.0)m,Mean±SD,n=95)。空间一致性结果表明,黑短脚鹎移动距离对幼苗更新距离的空间一致性程度高;而红嘴蓝鹊偏好生境与幼苗更新生境一致性程度高。结果表明,斑块生境中植物能与专性鸟类、泛性鸟类之间形成种子传播互惠关系,且种子传播效率受到专性鸟类和泛性鸟类传播距离和传播生境的影响。     

广东车八岭常绿阔叶林林下鸟群落组成和结构

2006年11月-2007年4月,用网捕法对广东车八岭常绿阔叶林林下鸟群落的组成和结构进行了研究.共张网1781.3h·网,捕到23种309只鸟,分属3个目10个科.林下鸟主要以雀形目为主,灰眶雀鹛(Alcippe morrisonia)和灰树鹊(Dendrocitta formosae)为优势种.从食性上看,车八岭常绿阔叶林林下鸟以食虫鸟为主,网捕到的食虫鸟共13种143只,食虫鸟占整个网捕鸟种类的56.5%、鸟数量的46.3%.车八岭常绿阔叶林中画眉科鸟类占有高的比例.     

贵阳阿哈湖国家湿地公园优势鸟类共存机制

2016年9月-2017年2月、2018年4-8月对贵阳阿哈湖国家湿地公园进行实地调查,从生态位分析了园内黄臀鹎Pycnonotus xanthorrhous、麻雀Passer montanus和白颊噪鹛Garrulax sannio 3种优势鸟类的共存机制。结果表明:3种鸟类的时间生态位宽度整体相近,分别为0.862 1、0.793 7和0.866 7,从季节来看,黄臀鹎较平稳,麻雀夏季最宽、冬季最窄,白颊噪鹛夏季最窄、秋季最宽。空间生态位宽度为:黄臀鹎(0.604 9)>白颊噪鹛(0.387 6)>麻雀(0.215 8),它们在人工生境中的生态位宽度均最大;3种鸟类的时空生态位重叠值普遍较高,在时间上,白颊噪鹛和麻雀重叠度最高,达到了0.985 3,在空间上,黄臀鹎和麻雀重叠度最高(0.873 2),其次为黄臀鹎和白颊噪鹛(0.831 6),最低的为麻雀和白颊噪鹛(0.481 1)。3种鸟类均为城市适应种,在不同维度的生态位上通过行为空间、食性、巢址选择、生境垂直和水平分布分离等多种方式形成系统的生态位分离,增强群落的稳定性以达到共存目的。     

近10年秦皇岛两种鸟类春季迁徙时间变化的差异性

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...     

大连旅顺老铁山发现白头鹎

2004年11月8日,在大连旅顺老铁山鸟类环志过程中,网捕4只(2♂♂、2♀♀)白头鹎Pycnonotus sinensis,隶属鹎科鹎属。标本(1♂、1♀)保存在蛇岛老铁山自然保护区管理处,其余2只环志后放飞,环号为B29—6726、B29—6727。     

都江堰林区取食樱桃果实(种子)的鸟类及其种子扩散作用

樱桃(Prunus pseudocerasus)是广泛分布于我国亚热带常绿阔叶林内的一种重要核果植物。为了解食果鸟类在樱桃种群更新中的作用,于2007年和2008年在四川都江堰亚热带常绿阔叶林内研究了取食樱桃果实(种子)的鸟类及其种子扩散作用。研究表明,樱桃成熟果实的下落高峰发生在4月下旬至5月上旬;2007年的种子扩散率为4.0%±1.0%,明显低于2008年(27.7%±5.7%)。在研究地内,发现至少有16种鸟取食樱桃果实或种子,根据其对果实和种子的处理方式分为3个功能群:白头鹎(Pycnontus sinensis)、领雀嘴鹎(Spizixos semitorques)、黑鹎(Hypisipetes leucocephalus)、白颊噪鹛(Garrulax snnio)、红嘴蓝鹊(Urocissa erythorhyncha)等10种鸟吞食樱桃果实,而种子通过消化道末端排出并将种子携至远离母树的地方,是重要的种子扩散者;暗绿绣眼鸟(Alcippe morrisonia)和灰眶雀鹛(Zosterops iaponicus)等4种鸟主要啄食果肉而将种子丢弃在母树下,为啄食果肉者;而普通朱雀(Carpopacus erythrinus)和灰头鸦雀(Paradoxornis gularis)则主要取食种子,为纯粹的种子捕食者。在吞食樱桃果实的食果鸟中,3种鹎科鸟类访问频次所占的比例达55.3%(2007年)和35.3%(2008年),说明鹎科鸟类是都江堰林区樱桃种子的主要扩散者,对樱桃种群的空间格局和自然更新可能有重要影响。     

北热带石灰岩地区红耳鹎的繁殖生态和巢址选择

热带鸟类的生活史进化策略与温带鸟类的不同,而迄今国内对热带鸟类的研究却非常缺乏,红耳鹎(Pycnonotus jocosus)在我国北热带地区分布广泛,是较为理想的研究对象。2010年至2014年春夏季,对北热带石灰岩地区红耳鹎的繁殖生态和巢址选择进行了研究。采用系统搜寻法并根据亲鸟行为寻巢,应用方差分析和主成分分析对相关数据进行处理。结果显示,红耳鹎的产卵期集中在4月中旬至5月下旬,喜筑巢于灌木和人工种植的苹婆(Sterculia nobilis)树。平均窝卵数为(3.4±0.5)枚(3~4枚),卵重(2.59±0.29)g,卵大小(21.10±1.73)mm×(15.35±1.50)mm(n=31)。总的繁殖成功率为36.16%,繁殖失败的主要原因是天敌捕食、弃巢和人为干扰。一年繁殖一次和较低的繁殖成功率是研究地的红耳鹎有较大窝卵数的主要原因。红耳鹎在巢址选择时主要考虑避雨因子、避敌因子和灌木因子。     

Composition and foraging behaviour of mixed-species flocks led by the Grey-cheeked Fulvetta in Fushan Experimental Forest, Taiwan

Thirty-two species were recorded in mixed-species bird flocks led by the Grey-cheeked Fulvetta Alcippe morrisonia in Fushan Experimental Forest, Taiwan. Flocks averaged (± se) 5.8 ± 0.2 species and 51.4 ± 2.7 birds. Most participants were resident species (86.3%), some were elevational migrants (12.6%) and a few were latitudinal migrants (1.1%). Flock size was determined primarily by the abundance of Grey-cheeked Fulvettas, the most abundant species (68.1%). Flocks moved at an average rate of 10.8 ± 0.7 m/min, with larger flocks moving faster than smaller flocks. In moving flocks, canopy species were usually near the front, while understorey species usually followed. Fulvettas gave higher-intensity alarm calls and dived down more frequently in response to avian threats, especially raptors, than to non-avian threats. The overall foraging niche-breadth of the fulvetta was greater than that of any attendant species. Each species in a flock had a unique foraging niche. Most attendant species exhibited low foraging niche-overlap with the Grey-cheeked Fulvetta. Both the predator avoidance and the foraging efficiency hypotheses for mixed-species flocking were supported. The Grey-cheeked Fulvetta plays a critical role in the function of mixed-species flocks. A large flock formed around the Grey-cheeked Fulvetta provides attendant species with numerous opportunities for obtaining food and protection from predators.     

贵州宽阔水7种雀形目鸟类繁殖巢记述

2012~2016年每年的4~8月,在贵州宽阔水国家级自然保护区记录到7种雀形目鸟类的巢共20个,分别为绿翅短脚鹎(Hypsipetes mcclellandii)2巢、斑胸钩嘴鹛(Pomatorhinus erythrocnemis)2巢、灰背燕尾(Enicurus schistaceus)1巢、灰眉岩鹀(Emberiza godlewskii)4巢、褐顶雀鹛(Alcippe brunnea)3巢、褐胁雀鹛(A.dubia)7巢和黑颏凤鹛(Yuhina nigrimenta)1巢。对其巢、卵或雏鸟以及巢址等进行了描述。     

Molecular phylogenetic analysis of the Grey-cheeked Fulvetta (Alcippe morrisonia) of China and Indochina: a case of remarkable genetic divergence in a "species"

The Grey-cheeked Fulvetta, Alcippe morrisonia, is a polytypic species of Quaker babbler (Timaliidae) occurring mainly in highlands from Burma across southern China to Taiwan. To examine gene flow among populations, we sequenced the mitochondrial ND2 gene of 39 individuals of six of the seven subspecies, plus multiple individuals of three outgroup Alcippe species. A lack of shared haplotypes and high FST values suggested no gene flow among populations. The nucleotide divergence between geographically juxtaposed subspecies ranged from 0.8% between Guangdong and Hainan to 9.4% between Yunnan and Vietnam. Phylogenetic analysis of the populations yielded a well resolved tree with two major clades. One clade consisted of the geographically central subspecies schaefferi and davidi, which are located largely in the "Mid-central" zoogeographic region of China's "Oriental" realm. The other clade, the geographically peripheral group, consisted of all other A. morrisonia subspecies, as well as an erstwhile outgroup, the Mountain Fulvetta (Alcippe peracensis annamensis) from central Vietnam. This peripheral group was further divided into two clades, one consisting of taxa occurring in China's "Southwest" zoogeographic region (fratercula and A. p. annamensis), and one occurring in China's "Southern" region (morrisonia, rufescentior, and hueti). These three geographic and phylogenetic groups represent at least four different species based on plumage differences and genetic differentiation. The phylogeny provides the first avian molecular evidence of area relationships among China's zoogeographic zones. It also highlights a remarkable and unexpected amount of genetic divergence and structure in a Sino-Indian "species". If such diversity occurs in other groups of birds with similar distribution, the ramifications are important for conservation planning.     

Effect of prey availability on the abundance of White‐breasted Wood‐Wrens,insectivorous birds of tropical lowland forests

Some understory insectivorous birds manage to persist in tropical forest fragments despite significant habitat loss and forest fragmentation. Their persistence has been related to arthropod biomass. In addition, forest structure has been used as a proxy to estimate prey availability for understory birds and for calculating prey abundance. We used arthropod biomass and forest structural variables (leaf area index [LAI] and aerial leaf litter biomass) to explain the abundance of White‐breasted Wood‐Wrens (Henicorhina leucosticta), tropical understory insectivorous birds, in six forests in the Caribbean lowlands of Costa Rica. To estimate bird abundance, we performed point counts (100‐m radius) in two old‐growth forests, two second‐growth forests, and two selectively logged forests. Arthropod abundance was the best predictor of wood‐wren abundance (wi = 0.75). Wood‐wren abundance increased as the number of arthropods increased, and the estimated range of bird abundance obtained from the model varied from 0.51 (0.28 – 0.93 [95%CI]) to 3.70 (1.68 – 5.20 [95%CI]) within sites. LAI was positively correlated to prey abundance (P = 0.01), and explained part of the variation in wood‐wren abundance. In forests with high LAI, arthropods have more aerial leaf litter as potential habitat so more potential prey are available for wood‐wrens. Forests with a greater abundance of aerial leaf litter arthropods were more likely to sustain higher densities of wood‐wrens in a fragmented tropical landscape.     

Distinct carbon sources indicate strong differentiation between tropical forest and farmland bird communities

The conversion of forest into farmland has resulted in mosaic landscapes in many parts of the tropics. From a conservation perspective, it is important to know whether tropical farmlands can buffer species loss caused by deforestation and how different functional groups of birds respond to land-use intensification. To test the degree of differentiation between farmland and forest bird communities across feeding guilds, we analyzed stable C and N isotopes in blood and claws of 101 bird species comprising four feeding guilds along a tropical forest-farmland gradient in Kenya. We additionally assessed the importance of farmland insectivores for pest control in C₄ crops by using allometric relationships, C stable isotope ratios and estimates of bird species abundance. Species composition differed strongly between forest and farmland bird communities. Across seasons, forest birds primarily relied on C₃ carbon sources, whereas many farmland birds also assimilated C₄ carbon. While C sources of frugivores and omnivores did not differ between forest and farmland communities, insectivores used more C₄ carbon in the farmland than in the forest. Granivores assimilated more C₄ carbon than all other guilds in the farmland. We estimated that insectivorous farmland birds consumed at least 1,000 kg pest invertebrates km^?2 year^?1. We conclude that tropical forest and farmland understory bird communities are strongly separated and that tropical farmlands cannot compensate forest loss for insectivorous forest understory birds. In tropical farmlands, insectivorous bird species provide a quantitatively important contribution to pest control.     

Fine-scale habitat structure complexity determines insectivorous bird diversity in a tropical forest

Habitat complexity in reforested stands has been acknowledged as a key factor that influences habitat use by birds, being especially critical for habitat disturbance-sensitive species such as tropical understory insectivorous birds. Most studies regarding the relationship between forest structure and species diversity were conducted at the landscape scale, but different diversity patterns may emerge at a finer scale (i.e., within a habitat patch). We examined a tropical reforested area (State of Caldas, Colombia), hypothesizing that insectivorous bird richness, abundance, and foraging guild abundance would increase as intra-habitat complexity increases. We established 40 monitoring plots within a reforested area, measured their structural features, and determined their relationships with species richness, total abundance, and foraging guild abundance, using Generalized Additive Models. We found that the increasing variation in basal area, stem diameter, and number of stems was positively correlated with species richness, total abundance, and foraging guild abundance. Relationships between richness or abundance and structural features were not lineal, but showing curvilinear responses and thresholds. Our results show that heterogeneity on basal area, stem diameter, and the number of stems was more correlated to insectivorous bird richness and abundance than the average of those structural features. Promoting structural variation on reforested areas by planting species with different growth rates may contribute to increase the richness and abundance of a tropical vulnerable group of species such as the understory insectivorous birds.     

Consequences of Fragmentation of Tropical Moist Forest for Birds and Their Role in Predation of Herbivorous Insects

The consequences of habitat alteration on the role of understory insectivorous birds as predators of herbivorous insects in tropical forests are poorly understood. To examine whether fragmentation may affect the top–down controls of herbivory, we compared the number of species, individuals, and the community structure of insectivorous birds between fragments and continuous tropical moist forest in Mexico. We also registered insect herbivore abundances and conducted a larvae predation experiment to evaluate the potential role of insectivorous birds as predators of herbivorous insects. We recorded 63 bird species from 22 families, 43 percent of which were insectivorous birds. Species richness, abundance, and diversity of the avian community were higher in continuous forest compared with forest fragments. For insectivorous birds in particular, there was low similarity in avian insectivore communities between forest types, and forest fragments had more heavily dominated communities of avian insectivores. During the dry season, forest fragments presented significantly higher predation rates on artificial caterpillars, and lower abundance of herbivorous Lepidoptera larvae, compared with continuous forest. Furthermore, there was a significant negative correlation between artificial caterpillar predation rate and larval Lepidoptera abundance, with higher rates of predation in sample sites of low Lepidoptera abundance. Hence, the potentially greater light in the dry season combined with a more dominated avian insectivore community in forest fragments may facilitate increased predation by avian insectivores, resulting in a decline in abundance of larval Lepidoptera, with implications for the process of insect‐driven herbivory in forest fragments.