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1.
对青藏高原色季拉山冬虫夏草适生地的寄主蝠蛾幼虫及其主要近邻植物的嫩根和土壤腐殖物质组分进行了系统的稳定碳同位素组成研究,发现在该地区存在两类食性不同的蝠蛾幼虫。第一类以土壤腐殖物质为主要食物,其δ^13C值为-22.6‰--23.4‰,头部的δ^13C值大于-23.4‰;第二类以植物嫩根为主要食物,其δ^13C值为-24.6‰--27.6‰,头部的δ^13C值小于-24.6‰。突破了前人关于蝠蛾幼虫的食物来源仅限于植物嫩根的认识,为规模化繁育蝠蛾幼虫时选取廉价优质食物和建造适合蝠蛾幼虫生长的人工适生地提供科学依据。 相似文献
2.
太湖贡湖湾鲚(Coilia ectenes taihuensis Yen et Lin)食物组成的季节变化 总被引:1,自引:1,他引:0
鲚(Coilia ectenes taihuensis Yen et Lin)是太湖主要的鱼类之一,其产量随水体富营养化程度的加重呈上升趋势.本研究于2009年4-12月用刺网(a=10 mm)在太湖贡湖湾采集了鲚,分析了其胃含物中食物组成的季节变化以及鲚对食物种类的选择性.结果表明,鲚在各月中主要以浮游动物为食,同时也摄食幼鱼、幼虾和水生昆虫等.鲚的食物组成具有明显季节变化,4月份以桡足类为食,其中桡足幼体、汤匙华哲水蚤(Sinocalanus dorrii Brehm)和剑水蚤(Cyclops spp.)所占的平均个数百分比相当;6、8和10月份主要以枝角类为食,其中6月以裸腹溞(Moina spp.)为主,而8和10月以象鼻溞(Bosmina spp.)为主.食物选择性方面,鲚对大型浮游动物表现出主动选择;当环境中出现溞(Daphnia spp.)和透明薄皮溞(Leptodora kindti Focke)时,鲚对它们表现出很强的选择性摄食,但透明薄皮溞只出现在6月鱼类食物中;个体较小的裸腹溞也是鲚主动选择的重要食物,在整个调查期间鲚对裸腹溞都表现出较高的主动选择性;象鼻溞虽然在各月份食物中的出现率最高,但除10月份鲚对其表现出主动选择外,其它月份表现为主动回避或随机选择.本研究结果有助于我们了解鲚对浮游动物群落影响的季节变化,为制定合理的湖泊与渔业管理方案提供依据. 相似文献
3.
本文比较了太湖梅梁湾敞水区2004年秋季渔汛期刀鲚(Coilia ectenes)和间下鱵(Hyporhamphus intermedius)的食性,同时对不同食物的重要性、选择性以及两种鱼类食物的重叠进行了分析.结果表明,秋季刀鲚、间下鱵的食物主要由浮游甲壳动物、鱼和昆虫等组成.镖水蚤中的指状许水蚤(Schmackeria inopinus)是刀鲚最重要的食物,而间下鱵最重要的食物是裸腹溞(Moina sp.),而且摄食鱼和昆虫的比例远高于刀鲚.刀鲚和间下鱵对个体较大的指状许水蚤的选择性都比较高,对个体较小、而在太湖密度很高的象鼻溞(Bosmina spp.)都表现出主动回避.刀鲚与间下鱵的食物重叠系数较高,表明对竞争比较激烈,但要完全了解这两种鱼类的竞争关系,还要对它们在太湖的分布,不同发育阶段和不同季节的摄食情况进行详细的调查研究. 相似文献
4.
5.
利用单船表层单囊拖网于2013年2 12月分别在太湖不同生态型湖区(敞水湖区和草型湖区)采集湖鲚(Coilia ectenes taihuensis)样品,同时用刺网补充大个体样品.通过胃含物鉴定,分析湖鲚饵料生物的种类及数量季节和湖区间差异,同时测定湖鲚摄食率、肥满度和食物选择系数等.结果显示,湖鲚主要食物为浮游枝角类和桡足类,此外,水生昆虫、轮虫和小型鱼虾也是湖鲚的重要食物来源.湖鲚食物组成季节变化明显,冬季以桡足类的哲水蚤(Calanus spp.)、剑水蚤(Cyclops spp.)为主,夏、秋季则以枝角类的象鼻溞(Bosmina spp.)、裸腹溞(Moina spp.)和盘肠溞(Chydorus spp.)为主.不同湖区湖鲚食物种类差异明显,草型湖区水生昆虫、鱼虾较敞水湖区多,桡足类较敞水湖区少.不同湖区间湖鲚食物数量差异明显,敞水湖区湖鲚平均食物数量为788.98±262.4 ind./尾,而草型湖区仅为298.85±71.1 ind./尾.湖鲚主动摄食大型枝角类,如僧帽溞(Daphnia cucullata)、低额溞(Simocephalus spp.)和大型溞(Daphnia magna),选择指数(Ii)介于0.59~1.00之间.小型裸腹溞(Moina spp.)也是湖鲚主动选择的食物(0.62Ii0.95),但湖鲚对桡足类选择性较低,这可能与桡足类较强的逃避能力有关.湖鲚对食物选择性的季节变化明显,如冬季回避透明薄皮溞(Leptodora kindti),而夏季则主动选择,但不同湖区湖鲚对食物的选择差别较小.本研究结果有利于从食物网层面剖析湖鲚种群增长原因,进而通过生物操纵理论对湖鲚种群进行控制,最终为形成合理的湖泊渔业结构和湖泊环境修复提供科学依据. 相似文献
6.
实验用食物浓度差减法研究了太湖长刺潘(Daphnia longispina)对浮游植物的摄食率及影响因素.在食物为原位湖水中的浮游植物,温度为20℃,光照为2.98×103 lux(光暗比12:12)条件下,测得长刺潘对水柱中浮游植物的摄食率为0.0011-0.0245μg/(ind·h).长刺溞摄食率随其种群密度增大而先增后降,呈良好抛物线分布(R2为0.8836).长刺溞摄食率随食物浓度的增加而增大,呈良好的线性关系(R2=0.8586).长刺溞在黑暗条件下的摄食率高于光照条件下(P<0.05,t检验).长刺溞可有选择性地摄食栅列藻和小环藻等,选择指数分别为0.5425、0.5079,而对丝藻的选择指数为-0.7039. 相似文献
7.
温度和食物密度一直是浮游动物生长和繁殖过程中的重要影响因子,而有关两者对蛭态类轮虫生活史策略的影响研究鲜有报道.本研究基于生命表,探究了温度(24、28和32℃)和食物密度(0.5×106、1.0×106、2.0×106和4.0×106 cells/ml)对蛭态类转轮虫(Rotaria rotatoria)生长、存活和繁殖的影响.结果表明,温度对转轮虫的所有生活史参数均具有极显著影响,食物密度以及温度和食物密度的交互作用显著地影响轮虫的主要发育阶段历时和生命期望.无论食物密度如何,随着温度的升高,轮虫的发育速度加快,繁殖期缩短,寿命减小,特定年龄存活率开始下降的时间逐渐前移,下降的速度也逐渐加快,但内禀增长率增加,这是转轮虫在不利条件下的生活史策略——能量分配权衡.在较低温度下(24和28℃),转轮虫的各主要发育阶段历时随着食物密度的增加而减小,但在高温下(32℃)高食物密度却对轮虫有利,轮虫的繁殖期和寿命随食物密度的增加而增加;可见,在适宜培养温度下,较低的藻浓度有利于轮虫的生长和繁殖,而高温下则需要高食物密度以保证轮虫对物质和能量的需求.在较低食物密度下,温度对转轮虫生活史参数的影响更加显著,这表明食物密度是重要的限制因子,其在量上的限制或不足会增加轮虫对基础代谢生理调节的代价,从而对其他因子的耐受能力可能随之缩小. 相似文献
8.
实验用食物浓度差减法研究了太湖长刺潘(Daphnia longispina)对浮游植物的摄食率及影响因素.在食物为原位湖水中的浮游植物,温度为200C,光照为2.98~10^3 lux(光暗比 12:12)条件下,测得长刺潘对水柱中浮游植物的摄食率为0.0011--0.0245μg/(ind.h).长刺涵摄食率随其种群密度增大而先增后降,呈良好抛物线分布(膏为0.8836).长刺潘摄食率随食物浓度的增加而增大,呈良好的线性关系(R^2=0.8586)长刺溢在黑暗条件下的摄食率高于光照条件Y(P〈0.05,t检验).长刺潘可有选择性地摄食栅列藻和小环藻等,选择指数分别为0.5425、0.5079,而对丝藻的选择指数为-0.7039. 相似文献
9.
以下各节资料选择性地包括了地震学不同研究领域中的一些主要公式,重点放在震源过程方面,并对这些公式做了简要的说明。本文的目的是将有用的公式简洁地整理和归集在一起,而对每个公式背景知识和细节不做详细论述。这些公式大致分成7个部 相似文献
10.
枝角类溞会由于捕食者的存在而发生形态、行为、生活史等的变化.通过为期10 d对太湖春、夏季优势种同形溞(Daphnia similis)在有幽蚊幼虫(CL)、无幽蚊幼虫(CK)及培养过幽蚊幼虫的过滤水(FL)3个环境水平的模拟实验,发现同形溞在有幽蚊幼虫和培养过幽蚊幼虫的过滤水处理下平均体长、累积产仔数及平均产仔数均显著大于无幽蚊幼虫组,表明幽蚊幼虫释放的信息素能改变同形溞的体长、产仔数等生活史参数,这种改变会降低同形溞被捕食的风险.说明在自然环境下,幽蚊幼虫等无脊椎捕食者能通过直接捕食和信息素的间接作用共同影响枝角类种群. 相似文献
11.
Zooplankton of the lake Jaisamand was represented by 50 taxa out of which 22 were Rotifera, 18 Cladocera, 5 Protozoa, 3 Copepoda and 2 Ostracoda. The total zooplankton exhibited a bimodal pattern with the first peak occurring in December and the second of a little less magnitude in June. The perennial zooplankters were Keratella valga, Brachionus falcatus from Rotifera, Ceriodaphnia spec. from Cladocera and Mesocyclops and Heterocyclops spp. from Copepoda. Considering surface zooplankton as a whole, Rotifera dominated the planktonic biomass followed by Copepoda, Cladocera, Ostracoda, Protozoa and Insecta. The species composition of the mid-stratum zooplankton was not much different from that of the surface. Interestingly, there was a presence of Cladocera in the anoxic bottom waters. The low and occasional presence of Calanoid copepods, the abundance of Cyclopoids and Cladocerans point to the eutrophication in the lake. 相似文献
12.
The objective of the study was to determine which factors regulate zooplankton organisms along Lake Nasser. Temperature, pH, DO, conductivity, turbidity, nutrients, and zooplankton abundance were measured. Twenty-three species of zooplankton were recorded in Lake Nasser included in Copepoda, Cladocera and Rotifera. Copepoda represented the main bulk of the community. The lowest standing stock of zooplankton was noticed during spring due to the highest fish predation during this season associated with the lowest turbidity. Big difference in temperature in Lake Nasser along the year round is considered as a controlling factor related to range of tolerance of species. The oscillation of the lake water level and the different factors affect the standing stock of zooplankton in the lake. Thus, continuous monitoring of Lake Nasser biota should be undertaken to follow the changes in the ecosystem. 相似文献
13.
在太湖,通过对263个太湖新银鱼和鲚鱼胃含物样本的食物组成分析和比较,研究了两种鱼类间的食物关系;并结合太湖历年鱼类渔获量资料,对渔获量变化间可能存在的相互影响进行了偏相关分析.结果表明:太湖新银鱼在4月份的食物中以桡足类为主,占个数的70.11%±10.57%,其次是枝角类,为29.84%±10.62%,轮虫的数量极少,仅占0.05%±0.11%;在4月份1 鲚鱼的食物中以枝角类为主、占79.35%±11.42%,桡足类占19.97%±10.78%,而轮虫和虾的数量很少,分别占0.49%±0.45%和0.20%±0.44%.而在9-10月份0 鲚鱼的食物中,枝角类占89.77%±13.69%,桡足类占7.84%±11.53%,轮虫占2.39%±4.95%;用Pianka提出的公式,计算两种鱼类在4月份5个采样点的饵料重叠系数平均为0.4739±0.2810,没有达到Keast提出的Ojk>0.7的严重重叠水平;计算5个采样点的相同食物组成比平均为46.42%±20.32%,和饵料重叠系数接近.而偏相关分析表明:两种鱼类数量变化间的相关关系是负向的,且随着鱼类密度的增加,负相关关系的显著水平有不断提高的趋势.如1973-1984年期间的负相关关系远没有达到显著水平(r=-0.2531 p=0.584),而1985-2004年期间的负相关关系接近显著水平(r=-0.4395 P=0.101).分析认为:太湖新银鱼和鲚鱼的食物虽有重叠,但通常情况下食物竞争并不激烈;种群数量变化间的相互影响是负向的,没有达到显著水平.可能仅在两种鱼类密度很高时,激烈地食物竞争才会发生、并主要表现为对哲水蚤和剑水蚤的竞争;且数量间负向的相互影响有加强趋势. 相似文献
14.
The community structure of zooplankton was studied in relation to physico-chemical characteristics of the river Chambal polluted by industrial effluents and domestic sewage near Nagda. Thirtytwo species of zooplankton of five main groups, viz. Protozoa, Rotifera, Cladocera, Copepoda and Ostracoda were observed at pre-pollution sampling stations. The abundance, distribution, total population, group percentage and species diversity were studied and correlated with pollution-indicating parameters. Species diversity values indicated a decrease from the sampling station near a pre-effluent point to an effluent discharge channel and an increase at a post-effluent discharge point revealing a slight recovery zone. Keratella tropica and Kellicottia sp. were identified as pollution tolerant taxa. 相似文献
15.
N. Emir 《洁净——土壤、空气、水》1994,22(6):280-288
This research has been undertaken to determine the zooplanktonic fauna (Rotatoria, Crustacea) and their seasonal distribution in two lakes with different characters. Çavu?cu lake has a surface area of 1000 ha with a maximum depth of 4 m and is classified as an oligo-mesotrophic lake. Eber lake has a surface area of 5200…17000 ha with a maximum depth of 2.5 m and is classified as an eutrophic lake. Zooplankton samples have been collected seasonally between the period of 1990 to 1993 from three stations with a zooplankton net of 44 μm mesh size. From Çavu?cu lake totally 50 Rotifera, 2 Copepoda, and 7 Cladocera species; 49 phytoplankton genera and 5 macrophytes have been identified while, 37 Rotifera, 3 Copepoda, 5 Cladocera; 45 phytoplankton genera and 6 macrophytes have been identified from Eber lake. 13 new rotifer records for the Turkey were found, which were Brachionus diversicornis, Macrochaetus collinsi, Lecane stichaeta, Cephalodella sterea, Cephalodella auriculata, Trichocerca iernis, Encentrum saundersiae. Pompholyx complanata, Floscularia ringens, Conochilus natans, Filinia pejleri, Rotaria rotatoria, and Philodina megalotrocha. 相似文献
16.
《Limnologica》2020
Fish may affect macrobenthic communities through trophic interactions and modification of habitat conditions. We compared the density, diversity and taxonomic composition of larval chironomids under low vs high fish impact, created by stocking semi-natural ponds with either young/small common carp Cyprinus carpio at low biomass densities or with high biomass densities of older/large common carp, supplemented by other cyprinids and predatory fish species.Over the study season, May–August, total chironomid abundance was considerably lower in ponds with high fish biomass than in low fish biomass ponds. In July–August larval densities declined significantly, irrespective of the fish status of the ponds. The composition of larval communities diverged between ponds with different fish status. Chironomus riparius and C. plumosus accounted for most of the observed dissimilarity. C. plumosus densities were not affected by the fish status of the pond, constituting on average >38 % of chironomid specimens in both types of ponds. C. riparius was abundant in ponds with low fish biomass (on average 30 %), but rare in ponds with high fish biomass (4 %). Other common taxa were Glyptotendipes pallens (15 % and 13 %, respectively) and Procladius sp. (14 % in ponds with low fish impact). Canonical correspondence analysis showed that fish biomass was more important in determining chironomid community composition than environmental variables indicative of pond eutrophication (total N, P, chlorophyll a and conductivity).Despite adverse effects on total abundance, chironomid diversity was higher under apparently stronger trophic pressure by fish. Fish may have relieved some chironomid species from invertebrate predation and competition with dominant Chironomus larvae. Other important drivers of chironomid assemblage and diversity patterns may include species-specific feeding modes and prey size selectivity of fish, the ability of chironomid larvae to attain size- and depth-refuge from small fish but not larger fish, and differential vulnerability of free-living and tube-dwelling larvae relative to ontogenetic niche shifts of fish. 相似文献
17.
J. Neubert 《洁净——土壤、空气、水》1986,14(6):643-651
Two different formulations of Trichlorfon were examined for their acute toxicity in laboratory tests. Cyprinus carpio L., Salmo gairdneri Rich. and the fish food organisms Cyclops spec., Diaptomus spec. and Chironomus spec. were used as test objects. The differences in toxicity between crystalline and technical Trichlorfon were not very large. The recorded lethal concentrations are summarized in graphical representations and tables. After exposure for several hours to lower concentrations of active constituents, the toxicant-damaged fishes regained their original activity of life during a subsequent phase of recovery Tests of fish food organisms with 100 … 200 μg/l Trichlorfon led to death within 48 hours. Also on chironomid larvae Trichlorfon has a lethal effect at 0.2 mg/l within 48 hours. Toxicity is increased by the hardness constituents of the water. As experiments conducted with Crustacea have shown, growth is inhibited only at a certain concentration in the body. 相似文献
18.
Dr. René Gächter Dr. Wolfgang Geiger 《Aquatic Sciences - Research Across Boundaries》1979,41(2):277-290
Phytoplankton, periphyton and zooplankton samples, chironomid andSialis sp. larvae, and fry of trout and bream collected from unpolluted and artificially metal-polluted limno-corrals were analyzed
for mercury, copper, cadmium, zinc and lead. The results indicate that these metals are not accumulated through the food chain
and suggest that increased metal concentrations in the environment favor the growth of phytoplankton organisms with a low
metal sorption capacity. 相似文献
19.
低洼盐碱地鱼虾混养塘中的浮游生物 总被引:6,自引:0,他引:6
1997年5~9月低洼盐碱地鱼虾混养塘中的浮游生物数量与生物量的月变化特点为:浮游植物中隐藻,裸藻与硅藻生物量在实验期间较高,蓝藻与绿藻在数量上占优势,进入秋季后蓝灌数量逐渐超过绿藻,浮游动物中原生动物,桡足类数量分别在5、6月份占优势;桡足类生物量这两个月占绝对优势,轮虫,原生动物的数量分别在7、8月份优势明显,结果表明实验期间小型浮游生物数量增加,分析表明,低洼盐碱地池塘水体浮游生物的变化与水体营养盐的含量,水产经济活动(鱼虾),水温等因素密切相关。 相似文献
20.
福建山美水库浮游动物群落结构时空特征及其影响因子分析 总被引:1,自引:0,他引:1
山美水库既是福建省泉州市饮用水源地,也肩负着为台湾省金门县供水的功能,但春夏季过高的pH值影响了水库水质.为此,从2020年起,调整水库鱼类放养结构和捕捞策略,并研究鱼类群落调控后山美水库浮游动物群落结构的响应及其与环境因子的关系.本研究于2020年和2021年连续两年的1月(冬季)、4月(春季)、7月(夏季)、10月(秋季)调查山美水库21个采样点的浮游动物群落结构和水环境因子.结果共鉴定出浮游动物68属102种,其中轮虫21属41种(40.20%),原生动物32属41种(40.20%),枝角类8属13种(12.75%),桡足类7属7种(6.86%).2020—2021年山美水库浮游动物平均密度为(1443.05±360.02) ind./L,平均生物量为(1.21±0.27) mg/L,2021年浮游动物密度和生物量显著高于2020年,其中,2021年枝角类和桡足类的密度分别显著高于2020年枝角类和桡足类的密度,2021年库首、库中和库尾区域枝角类生物量显著高于2020年对应区域;2021年桡足类生物量显著高于2020年.春冬季浮游动物群落的优势种主要为原生动物,夏秋季浮游动物群落的优势种主要为轮虫.根据浮游动物密度和生物量评价水体营养状态,夏季山美水库处于中营养状态,春、秋和冬季处于贫营养状态.影响浮游动物群落结构分布的主要环境因子为电导率、水温、溶解氧、硝态氮、透明度和高锰酸盐指数.研究表明调整鱼类放养和捕捞措施提高了浮游动物密度和生物量,基于此提出了通过调整鱼类群落结构改变浮游动物群落结构,进而改善水环境的建议,可为湖泊水库水环境保护和水生生物资源高效利用提供科学依据. 相似文献