野生扬子鳄生境特征分析

作者分别于 2002和 2003年抽样调查了安徽省扬子鳄国家级自然保护区有或曾经有野生扬子鳄 (Alligatorsinensis)分布的 22个样地,选择了与野生扬子鳄生存有关的 8类生态因子,即水域中岛屿情况、水域水面的稳定度、水体pH值、螺类丰富度、岸线植被盖度、岸线土壤质地、苦竹密度和植被类型,运用资源选择函数结合主成分分析方法研究了野生扬子鳄对生境的选择。结果表明岸线植被盖度对野生扬子鳄的生境选择影响最大,其次是水体pH值,再次是螺类丰富度、苦竹密度、水域水面的稳定度和土壤质地;而水域中岛屿情况与植被类型对野生扬子鳄生境选择的影响则较弱。     

野生扬子鳄种群动态变化及致危因素

1998—2003年,采用问卷调查、走访居民、夜间灯光照射计数等方法,对可能有野生扬子鳄(Alligator sinensis)分布的安徽省、浙江省和江苏省的45个地点进行了调查。结果发现：目前野生扬子鳄呈点状分布在至少23个地点,个体总数约120条,主要集中分布在安徽扬子鳄国家级自然保护区内。通过连续调查和对比分析表明：自20世纪50年代扬子鳄数量急剧下降(从5000—6000条下降为120条),但1998年至今其数量保持相对稳定(120条),种群的致危因素主要是栖息地破坏、人为捕杀、环境污染、自然灾害、繁殖力低等。在不同时期导致数量下降的因素不同：1950—1990年问,主要是由于栖息地丧失、人为捕杀等;目前的主要致危因素是缺乏适宜的自然栖息地,环境污染和遗传多样性丧失是潜在的致危因素。旱灾对野生扬子鳄生存的影响并不明显。     

野生扬子鳄栖息地水环境重金属元素含量及pH值的初步研究

为了研究野生扬子鳄种群数量急剧下降的原因,于2002～2003年在安徽省南部对野生扬子鳄栖息地现状进行了调查,采集了21个样地的水样,测定了重金属元素(Cu、Zn、Cd、Pb)含量及pH值.结果表明,野生扬子鳄栖息地水环境中的pH值为7.84±0.62,2组样地(有鳄分布、无鳄分布)pH值差异不显著(F=3.26,P＞0.05),而3种类型栖息地的pH值差异显著(F=7.32,P＜0.01).2组样地水环境中Cu、Zn、Cd元素差异不显著,野生扬子鳄栖息地重金属Pb含量为0.0233±0.016 mg·L^-1,Pb元素差异显著(F=5.77,P＜0.05).最后分析了野生扬子鳄栖息地内重金属Pb的污染源.     

野生金头闭壳龟栖息地植被多样性

2006年8—9月通过样方法,对安徽黟县、泾县2地记录有野生金头闭壳龟分布的34个栖息地进行了实地调查,分析了植被的改变对野生金头闭壳龟栖息地其它环境因子的影响。结果表明:对金头闭壳龟栖息地产生较大影响的环境因子包括植物群落结构、溪边沙地、溪流水体环境等;野生金头闭壳龟栖息地植被多是天然林砍伐后形成的次生林、人工毛竹林和杉木林;统计样方中共有维管植物443种,分属129科232属,其中,河柳、枫杨、毛竹、水杨梅、鬼针草、线穗苔草、水蓼等植物在样方中出现频度较高(>50%)。植被的改变对金头闭壳龟生存繁殖产生很大影响,是导致金头闭壳龟濒危的主要原因之一。     

野生扬子鳄种群及栖息地现状研究

1999年7～8月及2000年8～9月,利用GPS、激光测距仪等,采用夜间灯光照射计数方法,对 有野生扬子鳄(Alligator sinensis)存在的安徽省宣州、泾县、广德、郎溪、南陵等5 县市的26个地点进行了调查,包括扬子鳄国家级自然保护区的13个指定保护点。结果发现： 目前野生扬子鳄主要生存在第一类栖息地（1999年50.7%、2000年40.0%）,面积为17.38 hm²;其他两类栖息地的野生扬子鳄分布比率较小（各为1999年24.0%、2000年30.9%、1999 年25.3% 、2000年29.1%）,面积分别为22.04hm²、19.03hm²。两年的平均生态密度分别为1.28条/hm²和1.79条/hm²,野生扬子鳄种群数量为145条。其种群已明显分为至少18个数 量不等且相互隔离的地方种群。建议恢复足够大的栖息地,并放饲养鳄于其中以重新 建立有效野生种群。     

南陵县扬子鳄的种群数量及栖息地质量

1986-1998年,在安徽省南陵县对扬子鳄种群资源及分布区栖息地状况进行了4次调查。1999年对该县扬子鳄部分栖息地的质量做了研究。结果显示,南陵县扬子鳄野生种群目前只30头左右,每4年平均递减率约38%,分布于6个镇,7个行政村中,75%的栖息地已经消失,其中东河、三里、石铺三镇生活有全县80%的扬子鳄,而石铺镇扬子鳄密度最大,引起扬子鳄种群数量下降的主要原因是栖息地破坏,同时对鳄的捕杀,污染、天灾也是重要因素,其野外栖息地主要为两种类型,农耕区普通池塘和丘陵山地的山塘、水库,耕作区食物,栖息条件较好,人鳄矛盾较小的局部水域依然是扬子鳄最佳选择,但这类水域农药化肥污染已构成对扬子鳄的潜在威胁。     

荔枝果园植物群落动态变化及其对昆虫多样性的影响

果园生态系统的植物多样性是害虫天敌多样性的基础。以广西横县境内莲州路荔枝果园为样本,调查其中草本植物的种类和数量,从群落物种的4个特征指数(丰富度指数、多样性指数、均匀度指数及优势集中性指数)来分析果园植被多样性状况及季节性变化规律;同时调查分析果园栖生昆虫的种类、数量和4个相关性指数,探讨果园植被多样性与昆虫多样性的相关关系。结果表明,4～9月间,果园植物多样性指数在0.842～1.370之间;物种均匀度指数在0.445～0.659之间;优势集中性指数在0.326～0.518之间。昆虫与植被多样性指数峰值出现的时间基本同步,都在5～6月间。植被多样性指数较小起伏可导致昆虫多样性指数较大波动,说明栖息地植被多样性变化对昆虫群落的结构和组成产生较大影响,昆虫多样性与栖息地植被多样性密切相关。     

扬子鳄卵不同部位中的Cu、Zn、Cd和Pb重金属元素分布

扬子鳄Ａｌｌｉｇａｔｏｒｓｉｎｅｎｓｉｓ属于爬行纲鳄目鼍科 ,它是我国特有的珍稀物种。近几十年 ,由于其栖息地片段化、岛屿化 ,加之农药污染等人类生产活动的影响 ,使得野生扬子鳄种群数量明显下降 (Ｔｈｏｒｂ ｊａｒｎａｒｓｏｎ＆Ｗａｎｇ ,1999)。王小明等 (1999)的调查结果表明 ,野生扬子鳄数目不足 2 0 0条 ,处境十分危险。深入研究野生扬子鳄种群的致危因素及其机制 ,是避免野生扬子鳄遭受灭绝的关键。有关扬子鳄的繁殖 (顾文仪和张海生 ,1983;陈壁辉和王朝林 ,1984;汪国宏等 ,2 0 0 0 )、栖息地类型 (渡部摩娜等 ,1982 ;黄祝坚…     

广州南沙区植物多样性及植被类型

通过实地调查,对广州南沙区的植物多样性及植被进行了研究。据统计,该区野生维管束植物共有603种,隶属于128科,388属;植被主要为湿生植被、水生植被、滩涂植被及丘陵植被等。对南沙区野生植物多样性和区系地理的分析结果表明：该地区物种集中于少数科内,科属的优势现象明显。在植物区系上,该区具有较强的热带性,但温带成分也有一定程度的入侵。最后对该区植物多样性的保护提出建议。     

Present Status of Protection on Chinese Alligator' s Population and Habitat

扬子鳄(Alligator sinensis)是我国特有的古老而珍稀的爬行动物,现阶段野生扬子鳄的分布区域进一步萎缩,成为彼此孤立的点状,残存栖息地的生态环境趋于恶化,野生鳄数量估计为120 ～150条,老年化程度高.扬子鳄的保护管理依据现实状况及时加以调整,加大了野外保护力度,逐步改善野生鳄的栖息生境,实施野外放归工程,初步遏制了野生鳄数量迅速下滑的局面.人工饲养种群数量已逾10 000条,当前人工饲养繁殖的重点是管理好有限的遗传多样性资源.扬子鳄的研究主要涉及形态学、解剖学、组织胚胎学、生态学、生理生化、细胞及分子生物学,人工饲养繁殖技术等方面.营养生理和保护遗传学的应用研究有待加强.     

Habitat Use of American Alligators in East Texas

ABSTRACT The American alligator (Alligator mississippiensis) has made a remarkable recovery throughout its range during the last half-century. In Texas, USA, current inland alligator population and harvest management strategies rely on generalized and often site-specific habitat and population data generated from coastal populations, because it is assumed that habitat and demographic similarities exist between inland and coastal populations. These assumptions have not been verified, however, and no studies have specifically examined inland alligator habitat use in Texas. We quantified alligator habitat use in East Texas during 2003–2004 to address this information gap and to facilitate development of regionally specific management strategies. Although habitat was variable among study areas, alligators used habitats with >50% open water, substantial floating vegetation, and emergent vegetation close (<12 m) to dry ground and cover. Adults used habitats further from dry ground and cover, in open water (75–85%), with less floating vegetation (6–22%) than did subadults, which used habitats that were closer to dry ground and cover, with less open water (52–68%), and more floating vegetation (8–40%). Although habitat use mirrored coastal patterns, we estimated alligator densities to be 3–5 times lower than reported in coastal Texas, likely a result of inland habitat deviations from optimal coastal alligator habitat, particularly in the preponderance of open water and floating vegetation. Our findings that 1) inland habitats varied among sites and did not exactly match assumed optimal coastal habitats, 2) alligators used these inland habitats slightly differently than coastal areas, and 3) inland alligator densities were lower than coastal populations, all highlight the need for regionally specific management approaches. Because alligator populations are influenced by habitat quality and availability, any deviations from assumed optimal habitat may magnify harvest impacts upon inland populations.     

Disturbance-mediated competition: the interacting roles of inundation regime and mechanical and herbicidal control in determining native and invasive plant abundance

Disturbance is a key component of many successful plant invasions. However, interactions among natural and anthropogenic disturbances and effects of these interacting disturbances on invasive plants and desired vegetation are rarely examined. We investigated the effect of anthropogenic disturbance (herbicidal and mechanical) along a natural inundation gradient (20–282 days) on the biomass and resource allocation of the invasive wetland plant, alligator weed (Alternanthera philoxeroides), and two co-occurring competitor plants, the introduced grass, kikuyu (Pennisetum clandestinum), and the native grass, couch (Cynodon dactylon), over a 2-year period. In the absence of additional disturbance, kikuyu biomass was negatively affected, alligator weed biomass was positively affected, and couch biomass was not affected by inundation disturbance. In addition, kikuyu was not affected by the selective removal of alligator weed, while couch increased in wetter habitats where kikuyu was absent due to inundation stress. This suggests that kikuyu is a superior competitor in drier habitats and inundation facilitates the invasion of alligator weed, while couch is an inferior competitor to both kikuyu and alligator weed and is therefore suppressed across its entire niche by these two introduced species. Mowing alone had no effect on the biomass of the species, suggesting the plants are equally tolerant of shoot removal. Selective herbicide reduced alligator weed biomass by 97.5% and the combination of selective herbicide and mowing reduced the biomass of alligator weed significantly more than herbicide alone, by 98.6% compared with un-manipulated controls. To predict community change and prevent sequential exotic plant invasions after weed removal, it is necessary to consider the interacting effects of disturbance and the niche space of invasive species in the local propagule pool.     

Phenotypic plasticity rather than locally adapted ecotypes allows the invasive alligator weed to colonize a wide range of habitats

Both phenotypic plasticity and locally adapted ecotypes may contribute to the success of invasive species in a wide range of habitats. Here, we conducted common garden experiments and molecular marker analysis to test the two alternative hypotheses in invasive alligator weed (Alternanthera philoxeroides), which colonizes both aquatic and terrestrial habitats. Ninety individuals from three pairs of aquatic versus terrestrial populations across southern China were analyzed, using inter simple sequence repeat (ISSR) marker, to examine population differentiation in neutral loci. Two common gardens simulating aquatic and terrestrial habitats were set up to examine population differentiation in quantitative traits. We found no evidence of population differentiation in both neutral loci and quantitative traits. Most individuals shared the same ISSR genotype. Meanwhile, plants from different habitats showed similar reaction norms across the two common gardens. In particular, plants allocated much more biomass to the belowground roots in the terrestrial environment, where alligator weed may lose part or all of the aboveground shoots because of periodical or accidental disturbances, than those in the aquatic environment. The combined evidence from molecular marker analysis and common garden experiments support the plasticity hypothesis rather than the ecotype hypothesis in explaining the adaptation of alligator weed in a wide range of habitats.     

扬子鳄的起源

介绍了现存鳄彼此间的亲缘关系、扬子鳄起源的时间和地点。主要结论可归纳如下：①现存鳄类在科、属、种分类上都存在不同意见;②扬子鳄与密河鳄被分在同一属内,但两者之间的亲缘关系存在争议,两者在形态、生化、细胞、分子生物学上差异很大;③Stell认为扬子鳄在中新世开始出现,作者认为它可能起源于渐新世或中新世早期;④Stell认为分布于北美的汤氏鳄（A.thomsoni)可能是扬子鳄的祖先类型,而另一些学者认为扬子鳄起源于亚洲的可能性更大些。     

Use of alligator hole abundance and occupancy rate as indicators for restoration of a human-altered wetland

Use of indicator species as a measure of ecosystem conditions is an established science application in environmental management. Because of its role in shaping wetland systems, the American alligator (Alligator mississippiensis) is one of the ecological indicators for wetland restoration in south Florida, USA. We conducted landscape-level aerial surveys of alligator holes in two different habitats in a wetland where anthropogenic modification of surface hydrology has altered the natural system. Alligator holes were scarcer in an area where modified hydrology caused draining and frequent dry-downs compared to another area that maintains a functional wetland system. Lower abundance of alligator holes indicates lack of alligator activities, lower overall species diversity, and lack of dry-season aquatic refugia for other organisms. The occupancy rate of alligator holes was lower than the current restoration target for the Everglades, and was variable by size class with large size-class alligators predominantly occupying alligator holes. This may indicate unequal size-class distribution, different habitat selection by size classes, or possibly a lack of recruitment. Our study provides pre-restoration baseline information about one indicator species for the Everglades. Success of the restoration can be assessed via effective synthesis of information derived by collective research efforts on the entire suite of selected ecological indicators.     

A bacterial artificial chromosome library for the Chinese alligator (Alligator sinensis)

Chinese alligator (Alligator sinensis) is a rare and endangered species endemic to China. To better understand genetic details of the Chinese alligator genomic structure, a highly redundant bacterial artificial chromosome (BAC) library was constructed. This library consists of 216,238 clones with an average insert size of about 90kb, indicating that the library contains 6.8-fold genome equivalents. Subsequently, we constructed a 516kb contig map for the Chinese alligator olfactory receptor (OR) genes, which spans nine BAC clones, and subjected the BACs to full sequencing. The sequence analysis revealed that this contig contained 16 OR functional genes and meanwhile demonstrated that the nine BACs, which constituted the contig, overlapped correctly, proving the usability of this genome library. As a result, this BAC library could provide a useful platform for physical mapping, genome sequencing or complex analysis of targeted genomic regions for this rare species.     

Disturbance regime and limits on benefits of refuge use for fishes in a fluctuating hydroscape

Refuge habitats increase survival rate and recovery time of populations experiencing environmental disturbance, but limits on the ability of refuges to buffer communities are poorly understood. We hypothesized that importance of refuges in preventing population declines and alteration in community structure has a non‐linear relationship with severity of disturbance. In the Florida Everglades, alligator ponds are used as refuge habitat by fishes during seasonal drying of marsh habitats. Using an 11‐year record of hydrological conditions and fish abundance in 10 marshes and 34 alligator ponds from two regions of the Everglades, we sought to characterize patterns of refuge use and temporal dynamics of fish abundance and community structure across changing intensity, duration, and frequency of drought disturbance. Abundance in alligator ponds was positively related to refuge size, distance from alternative refugia (e.g. canals), and abundance in surrounding marsh prior to hydrologic disturbance. Variables negatively related to abundance in alligator ponds included water level in surrounding marsh and abundance of disturbance‐tolerant species. Refuge community structure did not differ between regions because the same subset of species in both regions used alligator ponds during droughts. When time between disturbances was short, fish abundance declined in marshes, and in the region with the most spatially extensive pattern of disturbance, community structure was altered in both marshes and alligator ponds because of an increased proportion of species more resistant to disturbance. These changes in community structure were associated with increases in both duration and frequency of hydrologic disturbance. Use of refuge habitat had a modal relationship with severity of disturbance regime. Spatial patterns of response suggest that decline in refuge use was because of decreased effectiveness of refuge habitat in reducing mortality and providing sufficient time for recovery for fish communities experiencing reduced time between disturbance events.