The effects of food abundance and disturbance on foraging flock patterns of the wintering Hooded Crane(Grus monacha)

Background:Food abundance and availability affect flock patterns of foraging birds.Cost and risk tradeoffs are especially critical for flocks of wintering waterbirds foraging in lake wetlands.Waterbirds losing suitable habitats face insufficient food supplies and high levels of disturbance,affecting their foraging activities.Our objective was to study the effects of food abundance and disturbances on flock size and the structure of Hooded Crane flocks wintering at Shengjin Lake and,as well,to understand the response of wintering waterbirds to habitat degradation for future management decisions and protection of the population.Methods:We investigated food abundance,disturbances and flock foraging activities of the wintering Hooded Crane in several foraging habitats of Shengjin Lake from November 2013 to April 2014.Flock size and structure were observed by scan sampling.Data on food abundance and disturbances were collected by sampling.Flock size and structure were compared among three wintering stages.The relationship between food resources,disturbances and flock size were illustrated using a generalized linear model.Results:In the early and middle wintering periods,the Hooded Crane used paddy fields as its major foraging habitat,where the number of foraging birds and flocks were the highest.During the late period,the cranes took to meadows as their major foraging habitat.The variation among foraging flock was mainly embodied in the size of the flocks,while the age composition of these flocks did not change perceptibly.Family flocks were notably different from flock groups in size and age composition.The results of a generalized linear model showed that the food abundance had a marked effect on foraging flock size and age composition,while disturbances had a significant effect only on flock size.From our analysis,it appeared that the combined effect of the two variables was significant on the size of the foraging flock,but had less impact on age composition.Conclusions:Food abundance and disturbances affected the flock size of the Hooded Crane.With abundant food and high disturbances,flock sizes increased owing to cooperation in foraging.To avoid competition and maximize foraging benefits,flock size reduces with an abundance of food but low disturbance.By trading off risks and costs,the cranes showed flexible flock distributions and a variety of foraging strategies to maximize benefits and to improve their fitness.

Abundance pattern of heterotrophic nanoflagellates in the southern Taiwan Strait

The analysis of 103 samples collected quantitatively from the southern Taiwan Strait (22°4'-24°3'N, 117°'-119°9'E), China, in August 1997 indicates that the abundance of heterotrophic nanoflagellates (HNF) ranges from 391 to 1 846 × 103 cell/dm3, with an average of 949 × 103 cell/dm3, and 96.2% of cells are in size of 2-22 um in all HNF met in the samples. The HNF cells are 9.83-45.79 μg/dm3 after conversion from cell number to carbon content, with an average of 22.82 μg/dm3. The HNF abundance is relatively low in comparison with other areas. The nitrogen and phosphorus nutrients of the water are lower than previous investigations, which may be caused by the El Nino. The biomass of HNF is higher in southern waters, where cell concentration is 3-5 folds higher than that in other waters, and nearly 2-fold as high as the average of the investigated areas. The HNF is mainly habitat in 0-30 m water layer. Both horizontal and vertical HNF distribution must be influenced by hy-drographical dynamic process to a great extent. Continuous in situ observations of HNF indicate the 24 h diurnal rhythm, with two peaks, one in night at one station (Station 9701) and one during the period of 12:00 - 24:00 at another (Station 9704). The factors controlling the diurnal variation of HNF are unclear, although vertical migration of HNF is obviously.

武功山篦子三尖杉群落特征及其保护

[目的]了解武功山篦子三尖杉种群的生长状况。[方法]对武功山篦子三尖杉群落进行调查,根据调查数据对群落植物区系、生活型、种-多度格局、垂直结构和篦子三尖杉种群年龄结构进行了分析。[结果]武功山篦子三尖杉群落区系成分以温带成分为主,向区系平衡点过渡;生活型以高位芽为主,占比为60%;种-多度格局为对数函数关系,得到拟合曲线y=24.07ln(x)+0.74(R^(2)=0.9775);群落分为乔、灌、草3层,树高级拟合曲线为y=200.57x^(-1.391)(R^(2)=0.8733);篦子三尖杉种群年龄结构呈稳定型。[结论]该研究结果为篦子三尖杉的保护提供了科学依据。

沿浦湾红树林大型底栖动物稀有种与常见种对物种多度分布格局及物种多样性的影响

稀有种在群落的物种组成中数量不多但种类丰富,并且极易在人为扰动下的局域群落中丧失。选取沿浦湾红树林大型底栖动物为研究对象,结合地理范围、生境特异性及种群规模等进行稀有种识别,通过模拟稀有种和常见种的丧失,探究稀有种对群落物种多样性和物种多度分布格局的影响。结果表明,大型底栖动物稀有种共有16种,分别为斑肋拟滨螺、多鳃齿吻沙蚕、红带织纹螺等。稀有种的丧失使得Margalef丰富度指数呈极显著下降(P<0.01),而Pielou均匀度指数、Shannon-Wiener指数、Simpson指数变化并不显著(P>0.05)。同时,稀有种丧失后,物种多度分布最优拟合模型也从泊松对数正态模型向生态位模型转变。初步推断稀有种的丧失将影响群落的物种多度分布格局,此时,大型底栖动物群落构建由中性过程和生态位过程共同调控转变为中性过程调控。

The biogeographical distribution of tree species-abundance and its relation to climatic factors in mass islands

Tree species-abundance in forests is a function of geographical area and climate, although it is not clear whether such relationships apply to mass islands. We examined the spatial pattern of tree species in mass islands along the coast of Zhejiang, East China Sea using the Preston model, to identify the relationships between tree communities and climatic conditions. The results show that：（1） the biogeographical distribution of tree species-abundance conformes to Preston＇s log-normal pattern, and is in accordance with the findings in both tropical rainforests and estuarine forests;（2） the climatic factors related to tree communities in mass islands are similar to that of the subtropical zone, including the major species of evergreen needle-leaf, broad-leaf and deciduous broad-leaf forests. We conclude that the Preston model can be applied to the trees of mass islands and thus facilitate the systematic ecological researches of vegetation species＇ composition in subtropical zone.

Species Richness, Spatial Distribution and Abundance of Mbuna in Lake Malawi

Studies were carried out to determine species richness and abundance of rock-dwelling cichlids, Mbuna, in Lake Malawi. A total of 40 heterogeneous sites which yielded 10 genera, 136 species and a species-genus ratio of 13.6, were surveyed by scuba diving in transects laid at six depths on each site. Species diversity and abundance were generally high in the rocky bottom habitats with a general trend of the two variables decreasing with depth, except at Likoma and Chizumulu Islands where they increased with increasing depth. This was due to dominant species inhabiting water depths of 10 to 15 m. Relative abundance was generally low in all the sites where few species had relative abundance of more than 10%. The same was applied to relative site frequency; more than 60% of the species were rare with relative site frequency of less than 10%. These low estimates support the fact that most of the Mbuna species are endemic within localities in the lake. Southern part of the lake has lower abundance and richness of Mbuna with the exception of islands compared to the northern part of the lake. This is explained by high prevalence of sandy and muddy lake bottom in the south as opposed to rocky bottom in the north.

成都城区河流廊道自生植物的物种组成及其响应不同生境的多度格局

自生植物具有多种生态功能,是人工建设环境中自发形成的荒野景观。以公园城市示范区成都市为研究地,选取贯穿主城区的3条河道样段,对其间多样微生境的自生植物物种组成和多度格局进行探究。共记录自生植物336种,生活型组成丰富。高频度及高多度的优势种所占比例很小,大部分物种属于低多度低盖度。岸上和水边的荒置地、自然驳岸所含物种数最多,而硬质驳岸支撑了更多蕨类植物。岸上绿地及铺装缝隙外来植物在群落中的多度显著较少;退化草坪中的自生植物也颇为丰富,夏季多年生草本在草坪群落中的多度显著高于其他微生境。可根据不同生境中物种多度、盖度格局进行保护和景观营建,以期更有效地提升城市河流廊道生态效益,并为市民提供更多荒野体验。

大陈岛礁海域甲壳类群落结构时空格局及其环境驱动

为探究局地尺度下近岸岛礁海域之多变水体环境、极高空间异质性对生物群落的影响,于2020—2021年4个季度在大陈岛礁海域底拖网采样,利用等级聚类(cluster)、非度量多维标度(NMDS)等多元统计方法分析甲壳类群落结构的时空格局,并整合温度、盐度、深度等环境因子进行冗余分析(RDA)以解析影响因素,同时利用丰度生物量曲线(ABC)及W统计量评估群落稳态。结果显示:全年共采集甲壳类53种,隶属2目13科29属,虾类占总种类数的56.60%,种类数秋季(43种)>冬季(41种)>春季(31种)>夏季(26种)。优势种的季节更替明显,夏秋季以哈氏仿对虾(Parapenaeopsis hardwickii)、中华管鞭虾(Solenocera crassicornis)和三疣梭子蟹(Portunus trituberculatus)为代表的中大型经济种为主,冬春季则以双斑蟳(Charybdis bimaculata)和细巧仿对虾(Parapenaeopsis tenella)为代表的小个体饵料种为主,口虾蛄(Oratosquilla oratotria)在各个季节皆为优势种。甲壳类资源密度季节间变化明显,空间分布不均,呈现秋季最高,春季最低,夏秋两季极显著高于冬春季(P<0.001),且近岩礁区资源密度最大,河口侧浅水区最小的特点。受洄游物种的季节性迁移和选择性分布,以及岛礁系统内水文环境的区域分化等因素影响,甲壳类群落结构具有显著的季节和空间差异,形成夏秋季异质性高,冬春季相似性大,河口侧浅水区与外侧深水区分化程度突出的格局。底层水温、底层盐度、底层溶氧和水深等环境因子与群落异质性存在显著关系。ABC曲线表明甲壳类群落状态稳定,具有较强的抗干扰能力。研究表明,大陈岛礁海域优势甲壳类季节变动强烈,且在局地尺度上一定程度表现出区域化的群落结构,但皆保持着较高的资源水平,对当地渔业资源的维系发挥着积极作用,也为当地海洋牧场的功能设计提供了资源基础。

紫色土坡耕地土壤中丰富和稀有细菌分布特征

土壤微生物组可分为丰富和稀有类群,其组成与土壤生态系统的健康及功能息息相关。对长期施用粪肥紫色土坡耕地土壤中丰富和稀有细菌群落的组成进行分析,结果表明:稀有细菌的数量、α多样性指数和β多样性指数均高于丰富细菌。门水平上稀有细菌比丰富细菌包含更多的分类群,说明两者的分类组成存在明显差异。施肥处理分别对稀有类群的数量和丰富类群的丰度产生了影响。网络分析显示少数丰富细菌占据了网络的中心节点,表明其在土壤细菌生态网络中的核心地位。这些结果有助于理解长期施肥耕地土壤中细菌群落组成及其生态网络。

基于红外相机技术对广东平远龙文-黄田省级自然保护区林下鸟兽生物多样性监测

为进一步查清广东平远龙文—黄田省级自然保护区鸟兽多样性、种群数量及分布,于2021年7月至2022年1月使用红外相机技术及公里网格布设法对保护区全域进行监测。红外相机共拍摄独立有效照片8182张,鉴定出鸟兽14目28科58种,包括兽类4目10科15种,鸟类10目18科43种,其中,国家一级重点保护动物1种,国家二级重点保护动物11种。新增11种鸟类记录,确认小灵猫Viverricula indica、豹猫Prionailurus bengalensis等国家一、二级重点保护物种在保护区的种群存续。兽类中,相对多度指数和网格占有率排前三位的物种是小麂Muntiacus reevesi、倭花鼠Tamiops maritimus、野猪Sus scrofa;鸟类的前三位则是白鹇Lophura nycthemera、紫啸鸫Myophonus caeruleus、白眉山鹧鸪Arborophila gingica,其中,白鹇、紫啸鸫、白眉山鹧鸪和倭花鼠为典型的昼行性动物,小麂和野猪以日间活动为主。该次红外相机监测有效地补充了林下鸟类、兽类和多种珍稀濒危种的数据,发现林下有蹄类动物优势显著、大型食肉动物缺失等特点,同时发现保护区仍受到一定程度的人为干扰,亟待开展进一步生物多样性调查及制定相应保护措施。

物种多度格局研究概况

介绍了群落水平多度格局与物种水平多度格局,概述了国内群落多度格局应用研究状况。其中节肢动物群落多度格局研究最为丰富,许多学者利用节肢动物群落物种多度格局对栖境质量进行评价。国内由于多度分布模型的拟合比多样性指数的计算复杂且困难得多,远没有群落多样性研究广泛;国内的物种多度分布研究往往集中在用现有的模型去拟合目标群落的多度分布,缺乏在物种多度分布的研究尺度和抽样方法方面,以及多度分布机制和新模型探索等方面的深入研究。这些内容应该成为今后研究的重点。

北京东灵山辽东栎(Quercus liaotungensis)林沿海拔梯度的物种多度分布

多度格局对理解群落结构具有重要意义。选用5个描述种-多度关系的生态位模型(断棍模型BSM、生态位优先占领模型NPM、生态位重叠模型ONM、随机分配模型RAM、优势优先模型DPM),分乔、灌、草3层分别对北京东灵山辽东栎林进行了研究。结果表明:在乔木层,沿海拔梯度从低海拔到高海拔,能很好地反映物种多度格局变异的模型有由RAM、NPM向DPM过渡的趋势;NPM和BSM均能较好地模拟灌木层的绝大多数海拔段,但NPM的效果更好;草本层以BSM的模拟效果最好。生态位模型可以反映出辽东栎林乔木层物种多度分布沿海拔存在的明显变异,而灌木层和草本层物种多度分布沿海拔梯度无明显变化或很难由生态位模型反映出来,是否引入新的模型方法,如中性模型、近中性模型,还有待于进一步研究。

含气量和渗透率耦合作用对高丰度煤层气富集区的控制

煤层气的产量主要来自含煤盆地高丰度煤层气富集区,但目前对高丰度煤层气富集区形成的控制因素、形成机制与模式认识不清,制约了煤层气的勘探和工业化进程。通过对沁水盆地南部、鄂尔多斯盆地东缘和淮北地区煤层气富集区地质特征的分析,明确了煤层含气量和渗透率的耦合作用是高丰度煤层气富集区形成的机制。煤层的含气量受水动力条件和煤层顶、底板条件的影响;变质程度、构造变形和地应力是控制渗透率大小的关键因素。在结合实际地质特征和物理模拟实验的基础上,建立了2种中高煤阶高丰度煤层气富集区形成模式,即斜坡区含气量和渗透率优势叠合富集模式和脆韧性叠加带煤层气富集模式。

云南松天然林区植物群落结构的空间动态研究

于2005年4月采用中点四分法对云南省禄丰县一平浪林场云南松天然林区植物群落结构及空间动态进行了实地调查研究.结果表明:从山坡上部到下部,物种的组成越来越丰富,其中的优势种群云南松属于衰退型、滇油杉属于增长型、黄毛青冈属于稳定型.根据更新层的重要值来判断,山坡上部将演替成为以滇油杉为主的单优群落;山坡中部将演替成为滇油杉和黄毛青冈为主的针叶、阔叶混交林;山坡下部将演替成为以黄毛青冈为主的常绿阔叶林.研究还表明,在林冠层中,除了滇油杉在山坡上部为聚集分布外,其他树种的分布格局均呈随机分布;在更新层中,优势种类均为聚集分布.

中国森林鸟类繁殖季和越冬季分布格局及其影响因子

基于我国2 376个县域单元的森林鸟类分布数据,分析了繁殖季和越冬季森林鸟类丰富度分布格局,并采用多元统计模型分析了2个季节的鸟类空间分布与环境因子之间的关系。结果显示,在喜马拉雅山脉东南段、横断山、秦岭、岷山、邛崃山、西双版纳、桂西南山区和桂西-黔南地区、巫山以及南岭广东北部地区2个季节的鸟类丰富度均较高;在小兴安岭、长白山、太行山以及山东和江苏沿海地区繁殖季鸟类丰富度较越冬季显著增加,而在广东及云南南部区域越冬季鸟类丰富度较繁殖季显著增加。繁殖季降水量、繁殖季净初级生产力和繁殖季温度变化对2个季节鸟类丰富度分布格局均有显著影响。此外,反映季节环境特征的季节内环境因子比反映年周期环境特征的年度环境因子在解释2个季节的鸟类丰富度分布格局方面有更高的解释度。生产力假说、水分假说和环境稳定性假说对2个季节鸟类丰富度分布格局的解释能力较强。

福建将石自然保护区鸟类物种相对多度模型的拟合研究

应用对数级数分布模型、对数正态分布模型、几何级数分布模型和分割线段模型对福建将石自然保护区鸟类物种相对多度分布格局对比研究结果表明 ,对数级数分布模型、对数正态分布模型能较好地描述将石自然保护区鸟类多样性 ,而几何级数分布模型和分割线段模型则不适于描述该自然保护区鸟类多样性 ;“多度 /频度”图解可较好地反映对数级数分布模型拟合效果 ,丘陵山地鸟类群落物种相对多度不遵从对数级数分布 ,各生境群落百分率相似性指数说明各生境群落百分率相似性较低。

太湖夏季浮游细菌群落多样性的空间格局

为了研究太湖夏季浮游细菌群落多样性与水体营养盐的关系,在太湖全湖范围内开展了一次大规模浮游细菌采样调查,分析了太湖不同湖区浮游细菌丰度和多样性组成。研究发现,浮游细菌丰度在不同湖区中存在明显的空间差异,从北部和西部湖区沿湖流向东南方向至湖心和南部沿岸再到东部湖区呈下降趋势,这与太湖水体营养水平从高到低变化趋势一致。浮游细菌丰度与营养盐浓度回归分析结果显示,总磷(TP)与细菌丰度存在较好的正相关(R2=0.6392,n=29,P<0.01),而总氮(TN)与细菌丰度无显著相关(R2=0.0663,n=29,P>0.05)。因此,磷是太湖夏季浮游细菌生长的限制因子。不同湖区营养盐与浮游细菌群落多样性也具有显著的正相关,随着营养水平的升高,浮游细菌多样性增加。此外,细菌群落的组成在不同湖区间亦具有明显的空间异质性,与不同湖区营养水平空间变化一致。研究结果将有助于人们更好地理解淡水湖泊中微生物循环和生态系统功能。

深圳次生林群落结构与植物多样性

为了重建近自然的乡土植被景观,近些年深圳市大力推进退化人工林的美景诱导与近自然化绿化工程。笔者对深圳市保存较好的天然次生林进行了调查研究,结果表明:深圳现有次生林分为厚壳桂+假苹婆+铁榄林、鸭脚木+豺皮樟+黧蒴林、杉木+银柴+九节林和阴香+南洋楹+糖胶树林4种基本类型;与邻近香港、广州白云山相比植物组成有很大相似性;现有次生林的乔木层高度多在10m以下,中小径级树木占明显优势;不同类型群落多度格局都遵循对数级数分布,不同类型次生林的物种多样性指数差异不太明显,处于演替中期的鸭脚木+豺皮樟+黧蒴林物种多样性最高,针阔混交的杉木+银柴+九节林灌木层物种多样性最高。

厦门及其邻近地区虾池浮游动物的组成及分布

分析了1999年8月至2000年7月逐月采自厦门及其附近地区 (厦门杏林、龙海角美、漳浦前亭 )4个虾池的浮游动物样品345份,鉴定出浮游动物36种 (类 )。本文初步报道浮游动物的种类组成、浮游动物的种类数和浮游动物的总个体数量的季节分布 ,并对不同地区的虾池浮游动物的若干生态特征做了比较。

水盐梯度下荒漠植物多样性格局及其与土壤环境的关系

植物多样性格局作为生物多样性维持的一个重要方面可揭示群落构建的信息,反映物种对环境的适应性。结合样带调查和实验分析的方法,研究新疆艾比湖湿地自然保护区内水盐梯度下荒漠植物多样性格局及其与土壤环境因子间关系。结果表明:(1)高、低水盐样地(SW1,SW2)土壤容积含水量(SVWC)和电导率(EC)分别为16.65%和12.02 m S/cm及2.63%和1.91m S/cm,水盐变化主要影响草本和部分灌木群落的植物组成;(2)高水盐生境下植物群落无明显趋势性分布,低水盐生境下植物种依水盐和营养元素呈区域性分布。(3)高水盐生境下荒漠植物的多度分布呈对数正态模型,低水盐条件下符合Zipf模型,多度分布的变化反映了群落组成结构的水盐梯度响应;(4)SW1样地多样性总体显著高于SW2样地,土壤p H、SVWC和硫(S)对植物多样性有不同程度的极显著影响。综上可知,荒漠植物分布及多样性格局与土壤环境间关系呈一定的水盐梯度响应规律,本研究可为该地区植被恢复和土壤盐渍化治理提供科学依据。