内蒙古图牧吉冬季大鸨调查初报

大鸨(Otis tarda)属大型草原鸟类,过去曾广泛分布于黑龙江省西部及内蒙古的东部,目前已经处于濒危状态。图牧吉自然保护区是大鸨的主要栖息地,繁殖数量约200多只。1998年开始记录到越冬大鸨个体,2003年冬季,本区越冬数量达到165只(其中保护区内记录到85只)。本文对图牧吉自然保护区大鸨的越冬数量分布进行了调查,并对大鸨越冬行为及食性进行了初步的观察和分析,对大鸨越冬地管理及越冬鸟类的保护提出了建议。     

蚜虫种群时空分布动态模型

种群空间格局是昆虫种群的重要属性,是为害虫防治提供动态信息的重要前提。关于种群空间格局的时空动态,前人曾建立了富立叶模型和有阻尼自由震荡模型,但忽略了生境资源和空间资源的限制,不能很好地描述昆虫种群在自然界摆布状况的动态行为。因此,在前人研究的基础上,根据蚜虫在自然界的聚集扩散行为逐步建立了描述蚜虫种群聚集扩散规律的变幅、变周期时空分布动态模型,即:y=Ae-nt[sin(w0emtt+φ)+b]+c,并应用该模型对麦长管蚜(Sitobion avenae Fabricius)、麦二叉蚜(Schizaphis graminum Rondani)、禾缢管蚜(Rhopalosiphum padi Linnaeus)和玉米蚜(Rhopalosiphum maidis Fitch)的实验数据进行了拟合。结果表明,麦蚜种群和玉米蚜种群呈现出不同的规律,3种麦蚜均为减幅减周期的变化趋势,玉米蚜则表现为减幅增周期的变化趋势。此外,该模型的拟合效果较好(R20.942,SSE2.6)、生物意义明确,不仅可用于描述蚜虫以及蚜虫以外的其他昆虫和螨类种群的时空动态,还可准确描述不同年龄阶段和不同空间位置上种群的动态,具有普遍适用性。应用该模型考察不同种蚜虫在同一作物上的竞争情况和蚜虫与其天敌的空间分布动态,可为害虫的综合防治奠定基础;对不同小麦抗性品种上同一种蚜虫的聚集扩散行为进行刻画、分析,还可为小麦的抗性育种提供参考依据。     

上海市凤眼莲种群的时空分布及控制对策

凤眼莲是上海市水体中危害最严重的入侵种之一.本研究调查了上海市及所辖各区县凤眼莲种群的分布现状,结果表明,凤眼莲在各区县水体中分布不均,以与江、浙两省相接的区县危害最严重.河道内其它水生植物的分布是凤眼莲固着生长的主要机制,这些植物主要为：喜旱莲子草、菰、芦苇、牛筋草、千金子等.凤眼莲的种群爆发规律：每年3～5月为萌芽阶段,7月下旬为爆发起始时期,8月中下旬至12月上旬为爆发的高峰期,12月下旬开始枯萎死亡,但其腋芽能够存活越冬,是来年爆发的种源.上游漂移而来的凤眼莲是种群爆发的另一因素.有鉴于此,提出其控制措施：①最佳打捞季节为12月～翌年6月,以去除种源为目标;②加强与周边省份的协调合作;③开展生物防治的研究;④清理河道内及堤岸上的水生杂草.以上措施的综合施用是控制上海市凤眼莲的有力保障.     

昆虫种群的一类时空动态模型研究

昆虫种群的时空动态包括种群的数量变化和空间分布变化.根据密度制约性原理, F推导出描述昆虫种群时空动态的非线性偏微分方程模型.该模型由扩散、迁移、出生及死亡等成分组成.建立了模型的差分解法,也给出模型参数的拟合方法.模型的初始分布确定为二项分布,Poisson分布,以及负二项分布.给出产生3种空间分布的计算方法.给定初始分布类型及参数,由各算法组装的计算机模型可得到初始分布,田间各点各时刻的昆虫数量 ,以及该时刻的空间分布类型和聚集性.     

一类大尺度系统中昆虫种群时空动态模拟方法

本文介绍了一类描述大尺度作物系统害虫种群时空动态的模型,该模型包含了寄主作物,昆虫密度以及天敌间的相互作用,并简要介绍了该模型的一些模拟结果在IPM中的应用。     

二点叶蝉自然种群的时空动态

选择受密度影响较小的负二项分布K值 ,描述玉米上二点叶蝉自然种群在 3个海拔高度上的空间格局及时序动态。在玉米生育期间 ,二点叶蝉种群即可作聚集分布亦可作均匀分布。 4月中下旬 ,二点叶蝉种群呈均匀分布 (K <0 ) ;5月份 ,呈聚集分布 (K >0 ) ;6月上中旬呈均匀分布 (K <0 ) ;6月下旬至 7月上旬呈聚集分布 (K >0 ) ,表现为扩散→聚集→再扩散→再聚集的总趋势。K值亦表明 ,5月份高海拔聚集强度最高 ,6月下旬至 7月上旬则低海拔的聚集强度最高。根据Taylor的幂函数法和Iwao的M -X回归方程的系数 ,高、中海拔的聚集强度大于低海拔     

黑龙江大豆蚜种群动态及田间空间分布研究

2007-2009年对黑龙江大豆蚜田间种群动态的调查结果表明,6月中旬大豆蚜Aphis glycines Matsumura开始在田间出现,3～5周后田间有蚜株率达到100%。7月未至8月初蚜量达到高峰期,9月中下旬在田间逐渐消失。大豆蚜有翅蚜与无翅蚜的发生动态基本一致,有翅蚜高峰期有时会稍有提前。2007年大豆蚜发生时期早、基数大、增长周期长导致高峰期蚜量显著高于2008年和2009年。大豆蚜田间分布聚集度指标I﹥0、m*/m﹥1、Ca﹥0、C﹥1,整个生长季种群都表现为聚集分布。建立的Iwao回归关系方程(m*=7.14758+1.11200m)表明种群分布的基本成分为个体群,个体之间表现为相互吸引。     

棉田十一星瓢虫种群动态及空间分布

通过田间系统调查,对棉田十一星瓢虫CoccinellaundecimpanctataL.种群动态及空间分布方面进行研究,探明捕食性天敌十一星瓢虫各虫态在南疆棉区的种群消长趋势,分析表明该虫4种虫态在棉田中均为聚集分布,成虫、幼虫和蛹的聚集原因主要是由棉蚜密度等引起,而其卵的聚集主要是由于其习性及环境因素引起。     

尚勇保护区亚洲象种群数量动态、种群结构及季节分布格局

在2006 年6 月至2007 年9 月,通过种群个体识别、社区监测网络、样线调查和村寨访问等方法对尚勇保护区亚洲象的种群动态和季节性分布格局进行研究。结果显示:目前在尚勇保护区的亚洲象种群数量约为68头;拍摄到亚洲象共计347 头次,通过个体识别方法识别出亚洲象53 头,其中幼体、青少年体、亚成体和成体数量及所占比例分别为:3 (5.66%)、11 (20.75% )、15 (28.30% )、24 (45.28% ),在成体中雄性只有两头,成年象的雌雄性比为11∶ 1,高于已知国内外的其他区域。从1992 年至2007 年10 月,至少有32 头亚洲象死亡,其中确认死于猎杀的有7 头,保护区的核心区野牛河、金宝河一带是盗猎亚洲象最严重的地区。严重的盗猎和不断减少的栖息地对当地的亚洲象种群产生了巨大的威胁,也加剧了当地的人象冲突。在雨季和旱季,亚洲象各有五个核心活动区域,食物是导致雨季和旱季分布格局不同的主要因素。     

基于GIS的种群动态的时空分析与模拟研究的方法进展

综合实例从时空分析,时空模拟和基于Web的GIS研究三方面介绍了种群动态的时空分析与模拟研究的最新进展和应用方法,并对未来该领域的研究重点和应用前景作了展望。     

笼养大鸨越冬行为的时间分配

20 0 0～ 2 0 0 2年冬季 ,在哈尔滨动物园 ,采用瞬时扫描法对 2 2只笼养大鸨 (Otistarda)进行全日制观察 ,研究结果表明 :笼养大鸨可以在北方安全越冬。笼养大鸨越冬期行为活动日节律、行为分配 :休息行为 (趴卧、静站 )所占比例最大 ,达到 78. 40 % ,而取食行为 (6. 1 5 % )、游走 (7. 3 5 % )、理羽 (4 . 3 5 % )、啄草雪(2 . 65 % )、打蓬 (1 .1 0 % )所占比例相对较少 ,且各行为时间分配差异显著 (P <0 . 0 5 )。大鸨在冬季不同时期内除取食、打蓬、啄草雪外 ,各行为时间分配差异显著 (P <0 .0 5 )。温度、天气的变化对笼养大鸨越冬行为时间分配也具有显著影响 (P <0 . 0 5 )。     

Alarming decline and range reduction of the highly threatened Great Bustard Otis tarda in Morocco

A Great Bustard Otis tarda survey carried out in spring 2015 in Morocco confirmed the decline of this highly endangered population. Bustards were only seen at two of the seven leks occupied ten years ago. The total number of birds counted was 40-44, which represents a 40% decline over the last decade. The sex-ratio was still strongly female-biased (1 male: 3 females), but less than in previous surveys, which suggests that trophy hunting has not been the major mortality cause in recent times. The productivity was 0.29-0.33 juveniles per female, the highest ever recorded in this population, suggesting that breeding success doesn’t represent the main problem for the survival of this population. Based on the recent development of the power line network at some areas, the main threat today is probably collision with power lines. Reducing this mortality cause should be considered a high conservation priority.     

大鸨的现状和研究动态

大鸨(Otistarda)是栖息于广阔草原的重要濒危鸟类,属国家Ⅰ级保护动物。本文根据近年国内外对该物种的研究结果,对其亚种分布、种群数量、生态生物学、种群遗传结构及组织形态学观察等方面作了综述。通过对其生存现状、受胁原因、研究动态的论述,为该物种的保护和管理提供科学的依据。     

Distribution and status of bustards in China

This article presents the distribution and status of bustards, which are listed as first-category protected animals according to the survey results during 1990-2002 in China. The Chinese populations of Otis tarda dybowskii are breeding in south-west of Heilongjiang Province, west-ern Jilin Province, east and middle Inner Mongolia, north Ningxia Hui Autonomous Region, and Gansu Province. A few can winter in the south breeding-range. Its winter-range lies from the south to the Yellow River, as far as to Guizhou Province and Jiangxi Province. Its population number is about 200-300 or 500-800. The Chinese popula-tions of O. t. tarda are breeding in the north and west of Xinjiang. It is unclear about its winter-range, which is pre-sumed to be in south Asia. Recently we found individuals wintering in Chabuchaer and west Xinjiang. The popu-lation number is about 2000-3000. The habitat in breeding range includes steppe, grassland, desert grassland, and farmland. The habitat in winter range is the beach of rivers and lakes, meadows, meadow-grassland, and wheatland. The Chinese populations of Chlamydotis undulata mac-queeni are breeding in the fringe of the Jungar Basin, the banks of the Ulungur River, Balikun and south Turpan Basin in Xinjiang, west Inner Mongolia, and west Gansu. Northeast Mulei in eastern Jungar Basin of Xinjiang is the main breeding-range in the world. The bird uses desert and desert grassland as its habitat. Its winter-range is west Asia and south Asia. Its population number is about 2000. The Chinese populations of Tetrax tetrax are breeding in north Xinjiang, and China is located on the east border of its breeding-range. Its habitat is grassland and semi-desert, and its winter-range lies in south Asia. Its population in China is very scarce. In addition, we analyzed the causes of their endangerment and put forward protection tactics of Chinese Bustards.     

基于DNA条形码分析大鸨繁殖期动物性食物

动物性食物是满足繁殖期大鸨(Otistarda)能量和营养需求的重要来源,然而由于传统食性分析手段的局限性,大鸨繁殖期的动物性食物组成目前还不清楚,不同繁殖地大鸨的食性差异还有待研究。高通量测序应用于食性分析,具有工作量小、数据量大和分类精度高的优点。基于粪便取样,利用高通量测序技术,对内蒙古图牧吉国家级自然保护区靠山核心区和马鞍山片区繁殖期大鸨的动物性食物种类和组成进行分析,并比较食物多样性的空间差异。物种累计曲线表明,研究中的最小采样强度(n=11)能够使MOTUs的检测限达到平台期。在24份大鸨粪便中,共发现29种不同动物性食物的DNA序列,均来源于无脊椎动物,以节肢动物门的鞘翅目占比最高(44.83%)。按照科水平分类,以金龟科占比最高(24.14%),其次为蝗科(13.79%)、芫菁科(10.34%)和蓟马科(6.89%)。马鞍山片区大鸨对食物的取食频率和粪便中被检测到其所取食食物种数均显著高于靠山核心区,食物多样性也显著高于后者,大鸨食性表现出一定空间差异。本研究为深入研究大鸨食性与栖息地选择的关系,以及了解大鸨繁殖期的觅食对策奠定了基础,为保护部门有效保护和恢复大鸨栖息地提供了食性水平的参考依据,同时为分子食性分析方法用于其他动物的觅食生态学研究提供了示范。     

越冬期大鸨粪便氨基酸组成与消化能力分析

为评估陕西黄河湿地大鸨越冬期营养状况,于2012年1～2月收集大鸨新鲜粪便并对粪便中的蛋白质、灰分和氨基酸含量等做了测定.结果显示,粪便中粗蛋白、粗灰分含量分别为40.25％、19.81％.谷氨酸含量最高,为0.55％,组氨酸含量最低,为0.10％.粪便中豆苗、豆瓣、麦苗、麦粒、玉米、杂物的干物质比重分别为0.47％、4.05％、84.80％、6.75％、2.86％、1.07％.结果表明,麦苗是粪便干物质的主要成分,但相对大鸨越冬食性而言,麦苗粗蛋白含量偏低.粪便中谷氨酸、甘氨酸、天门冬氨酸和丙氨酸含量较大,这对优化大鸨对食物的选择方面起一定作用.     

Isolation and characterization of microsatellite loci in the great bustard,Otis tarda

With the aim to study population genetics of the endangered great bustard, Otis tarda, dinucleotide microsatellite loci were isolated using an adapted hybrid‐capture enrichment protocol. This work reports the characterization of a set of six polymorphic microsatellite markers within the great bustard (n = 52). Results from cross‐species amplifications in several other members of the family Otididae demonstrate that five primer pairs also successfully amplified homologous loci outside the species Otis tarda.     

Meta‐barcoding insights into the spatial and temporal dietary patterns of the threatened Asian Great Bustard (Otis tarda dybowskii) with potential implications for diverging migratory strategies

Food resources are often not sufficient to satisfy the nutritional and energetic requirements during winter conditions at high latitudes. Dietary analysis is a prerequisite to fully understanding the feeding ecology of a species and the nature of trophic interactions. Previous dietary studies of Asian Great Bustard (Otis tarda dybowskii) relied on behavioral observations, resulting in categorization of diet limited to broad taxonomic groupings. Here, we applied a high‐throughput sequencing meta‐barcoding approach to quantify the diet of resident and migratory Asian Great Bustard in three wintering sites during early winter and late winter. We detected 57 unique plant taxa in the bustard diet, among which 15 species were confirmed by a local plant database we generated. Both agricultural and natural foods were detected, indicating a relatively broad dietary niche. Spatiotemporal dietary changes were discovered, revealing diet differences among wintering sites and a general shift toward lower plant diversity later in winter. For the nonmigratory population, we detected a significantly more diverse array of plant species in their diet. We hypothesize that dietary variation between resident and migratory populations could be involved in the recent transition to partial migration in this species, although climate change can not be excluded. Collectively, these results support protecting unharvested grain fields and naturally unplowed lands to help conserve and promote population growth of Asian Great Bustard.     

Proximate and ultimate causes of natal dispersal in the great bustard Otis tarda

Between 1991 and 1997 we studied the offspring independenceand juvenile dispersal in a wild population of great bustards(Otis tarda). Young males were independent and began their juveniledispersal at an earlier age (6–11 months) than young females(8–15 months). The juvenile dispersal period was longerand the distances reached farther in males than in females.Natal dispersal distances were also longer in males, all ofwhich dispersed from their natal areas and established as adultsat 5–65 km from their natal nests. In contrast, most femaleswere strongly philopatric, settling at 0.5–5 km from theirnatal nests. These marked sex differences in offspring independenceand dispersal may have evolved originally to maintain geneticdiversity and are probably reinforced through male competitionfor mates. Young males that had fed at higher rates and receivedmore feedings from their mothers during the early maternal dependenceperiod became indepthdent and tended to disperse earlier. Theyalso integrated earlier into adult male flocks and settled earlierat their definitive leks, which were closer to their natal sites,in areas of higher adult male density. None of these correlationswas found among young females. These results suggest that enhancedfood intake and maternal care of male offspring are vitallyimportant in increasing their competitive ability during theimmature period and probably also in their fitness as breedingadults. These results are in accordance with the selective valueof large size in males and suggest how this species might havereached such a marked sexual dimorphism in size.