优化滩涂养殖水体生态结构和调节水质的研究

采用在滩涂鱼塘和虾池中接种小球藻和有益微生物的方法,探讨了调控滩涂养殖水体生态结构的浮游生物种群、数量、生物量及化学环境的可行性。结果表明,虾池和鱼塘中接种小球藻后,小球藻数量均大幅度增加,变为优势种群,分别是其对照的16.92倍、4.76倍;浮游动物生物量为4.32mg·L^-1和2.84mg·L^-1,分别比对照增加19.3%、2.5%,同样,光合细菌、酵母菌及硝化细菌显著地改变了水体藻类和浮游动物种群的组成、数量、比例及生物量等,“酵母菌＋硝化细菌”的处理,使水体氨态氮浓度下降最明显,为对照的44％,虾池生化耗氧和化学耗氧,为对照的56.5%和38.4%,增加了水体溶解氧和初级生产力。     

稻鸭共育稻田水体藻类动态变化

稻鸭共育技术作为稻田复合种养模式,是有效控制常规稻作生态污染的重要技术途径.通过对不同时期稻田藻类群落种类、密度、生物量及环境因子进行测定,研究稻鸭共育稻田水体藻类动态变化规律.结果表明,稻田藻类群落包括蓝藻门、绿藻门、硅藻门、裸藻门,隐藻门及甲藻门共6门、38属、108种.随着水稻发育进程,藻类优势种单位生物量增加,前期皆以银灰平裂藻、栅藻等为优势种,后期对照以方鼓藻,灿烂颤藻,短小舟形藻等为优势种,而放鸭区优势种皆是裸藻门,包括绿色裸藻,尖尾裸藻,梭形裸藻等.稻鸭共育稻田水体藻类初期有个适应期,在放鸭后15d左右藻类密度及生物量显著下降,之后开始上升.与常规对照相比,稻鸭共育藻类密度及生物量较低,放鸭对稻田水体生态系统的影响主要体现在放鸭45d以后,表现为水体全P增加,全N减少,藻类多样性下降,优势种发生变化.环境因子与藻类相关分析表明,全磷与裸藻生物及藻类总生物量存在显著正相关,相关系数分别为0.697、0.625,而全N与藻类相关性不显著.     

浮游动物调控对浮游藻类的影响

浮游动物可以通过牧食作用来抑制浮游藻类的增长, 同时浮游动物排泄的营养盐又可以促进浮游藻类的增长,二者的强弱是浮游动物控制浮游藻类的关键。通过人为去除处理组水体中的浮游动物, 研究浮游动物生物量和群落结构的不同对富营养水体中浮游藻类的影响。研究结果显示处理组浮游动物总生物量低于空白组, 且缺乏大型枝角类溞属(Daphnia sp.); 去除浮游动物显著降低了水体中的总氮和总磷浓度以及浮游藻类生物量(叶绿素a), 同时增加了附着藻的生物量; 并且影响了浮游藻类群落结构: 对照组是空星藻(Coelastrum sp.)为优势种而处理组则为湖丝藻(Limnothrix sp.)和四集藻(Palmella sp.)。结果表明浮游动物排泄营养盐产生的上行效应大于牧食作用产生的下行效应。     

不同氮磷比条件下浮游藻类群落变化

选取天津市小型人工湖湖水样品,调整氮磷起始质量比(分别为0.5∶1、7.2∶1、25∶1、50∶1),在水族试验箱内进行生态模拟试验,探讨城市湖水浮游藻类群落对不同氮磷比例的响应.与对照组相比,高氮磷比组绿藻种类减少,蓝藻种类变化不大;低氮磷比组蓝、绿藻种类数均减少.高氮磷比的中氮和高氮箱内,藻类生物量、细胞密度与叶绿素a都远高于对照和高磷箱;高氮箱中叶绿素a均值最高,为69.7 μg·L^-1,中氮箱次之,为54.3 μg·L^-1,对照与高磷箱分别为30.3和29.7 μg·L^-1.试验中后期,高磷箱绿藻门美丽胶网藻(Dictyosphaerium pulchellum)一直占据优势地位;而中氮箱和高氮箱主要优势藻种为皮状席藻(Phormidium corium)、细胶鞘藻(Phormidium tenue)、湖泊鞘丝藻(Lyngbya limnetica)和铜绿微囊藻(Microcystis aeruginosa)等蓝藻.对照箱内物种丰富度最高,中氮箱内生态优势度最高.     

空间层次及人工基质对着生藻类建群特性的影响

为全面了解着生藻类在建群中群落变化的生态学特性,揭示着生藻类的建群规律,在以丝状藻类为优势藻的生态塘中,采用花岗岩和瓷砖为附着材料,设置水体底部和中部为附着位点,进行频次为10d的采样分析。结果表明,生态塘中共检出8门73属117种着生藻类,其中以硅藻、蓝藻、绿藻为优势类群。同时不同人工基质和不同空间层次条件下着生藻类的建群特征较一致,早期以单细胞硅藻如舟形藻(Navicula sp.)、脆杆藻(Fragilaria sp.)、曲壳藻(Achnanthes sp.)等为优势,后期以丝状藻类如鞘丝藻(Lyngbya sp.)、颤藻(Oscillatoria sp.)、伪鱼腥藻(Pseudanabaena sp.)等为优势;研究结果发现不同人工基质(花岗岩和瓷砖)对着生藻类的种类组成、细胞密度、生物量和藻类多样性无显著影响,花岗岩和瓷砖上附着的着生藻类具有较高的相似性;但不同的空间层次对着生藻类建群特征影响明显,水体底部具有更多的硅藻种类数,中部具有更多的绿藻,随着建群时间的发展,蓝藻比例不断增加;就生物量而言,底部的着生藻类叶绿素a显著高于水体中部,但两者的细胞密度无显著性差异;随着建群过程的发展,水体底部的着生藻类生物量达峰值所需的时间比中部更长。通过相关性分析,生态塘中着生藻类的生长主要受总磷的影响。     

鲢滤食不同藻类的磷吸收及排泄过程研究

为探究滤食性鱼类对水体营养元素地球化学循环过程的影响开展了室内实验,研究了鲢(Hypophthalmichthys molitrix)对藻类的滤食效率,测定了滤食过程中鲢对磷的吸收和排泄,并分析了排泄对水体中氮、磷的影响。结果表明:(1)鲢通过滤食作用降低了藻类密度,且对不同藻类的滤食效率无显著差异;(2)在水体中,鲢滤食藻摄入磷并排泄溶解性磷(SRP),在食物充足时可维持水体总磷(TP)相对稳定,在食物不充足时,鲢消耗自身营养并持续排泄SRP,成为新磷源;(3)鲢摄入食物后以高氮磷比(N﹕P)向环境再供应无机营养,食物中大部分氮和少部分磷以无机营养形式排泄,使滤食组水环境N﹕P显著高于control组,其中滤食蓝藻组水环境N﹕P显著高于硅藻、绿藻组,提示鲢对藻的滤食促进水体营养向磷限制转换,尤其是滤食蓝藻可能加强这种趋势。总之,鲢不仅可通过摄食压力降低藻密度,同时能以高N﹕P排泄再分配营养影响藻生长,其对水体营养循环的作用值得关注。     

鲢、鳙的食性及其对藻类的消化利用

通过对青菱湖34尾刚起水的鲢、鳙食物团的检查,得鲢、鳙食物中浮游植物和浮游动物的数量比例分别为48.78:1和7.95:1;将其折算为生物量,则浮游植物与浮游动物之比,鲢为1:47.6,鳙为1:292.15,显示出两种鱼食物中的浮游动物生物量都大于浮游植物生物量。鉴于鳙所食的浮游动物的生物量大于鲢所食的6倍多,因此,仍可相对地认为鳙以食浮游动物为主,鲢以食浮游植物为主。滤食时,除了小于鲢、鳙鳃耙间隙的浮游生物被随水滤去外,从鲢、鳙所生活的水体中的浮游生物组成和它们肠管中的食物组成的一致性来看,它们对食物并无选择能力。此外,对鲢、鳙是否能够消化某些藻类,根据观察而获得了结果。     

不同类型水生植物群落对蓝绿藻类的抑制作用

选择2种常见水生植物荇菜(Nymphoides peltatum)和黑藻(Hydrilla verticillata),构建了荇菜群落(浮叶植物群落)、黑藻群落(沉水植物群落)和荇菜-黑藻群落(复合群落)等3种不同类型水生植物群落,在模拟富营养化水体环境条件下与自然水体中藻类共培养,研究了不同类型水生植物群落对藻类的抑制作用.结果表明:1)3种群落对水体中藻类的抑制作用顺序为荇菜群落>复合群落>黑藻群落,实验结束时水体叶绿素a分别减少了63.1%、44.7%、3.3%.2)荇菜群落中蓝藻受到了较强抑制作用,其总藻细胞密度比初始减少了99.5%;而绿藻总藻细胞密度则比初始增加了31.6%;黑藻群落中蓝藻仍保持较高生物量,绿藻藻细胞密度一直处于较低水平;复合群落对蓝绿藻均有很好的抑制效果,蓝藻藻细胞密度比初始下降了95.9%,绿藻藻细胞密度始终保持在较低水平.3)3种群落中藻类组成变化不同:荇菜群落中初始以微囊藻、色球藻等蓝藻门植物为优势种,逐渐转变为以小球藻、栅藻、四角藻等绿藻门植物为优势种;黑藻群落中藻类一直以微囊藻为优势种,伴生有少量的小球藻属、栅藻属、隐藻属藻种;复合群落水体中藻类组成与荇菜群落中藻类变化相似,实验期间微囊藻数量逐渐减少,而栅藻数量逐渐升高.4)不同群落中植物生物量增加明显,荇菜和黑藻的鲜重在单种群落和复合群落中均具有较高的增长率,分别为129.8%、63.6%和108.8%、66.5%;植物生长对光照、温度、pH等环境因子具有明显的调节作用,荇菜群落中水下20 cm处光衰减率与水体叶绿素a显著相关,说明荇菜的遮光作用是其产生显著抑藻作用的重要原因.     

水生植物腐烂分解对水质的影响

对6种水生植物进行64 d的腐烂分解试验,对比不同水生植物腐烂分解过程中水体营养盐浓度的变化.结果表明： 6种水生植物的腐烂分解速率差别较大,浮叶植物分解速度最快,沉水植物次之,挺水植物最慢.不同水生植物腐解过程对水质影响不同,并与植物生物量密度相关.挺水植物芦苇腐解过程中的水体化学需氧量、总氮和总磷浓度最低;在茭草分解后期,水体化学需氧量和总氮浓度上升,水质变差.浮叶植物荇菜和莲腐解过程中,水体化学需氧量和总氮浓度高于其他植物.沉水植物菹草和狐尾藻腐解过程中,水体铵态氮、硝态氮和总磷浓度最高.对于同一种植物,不同生物量密度处理下,主要水质指标变化趋势相似.适量的植物残体的存在可以有效促进水体氮、磷等营养元素的循环,一定程度上去除硝态氮,降低水体氮负荷.     

鲢鲴混养对水体环境的影响

为评估鱼类混养及其排泄物对水体环境的潜在影响,采用室内受控实验研究了鲢（Hypophthalmichthys molitrix）和黄尾鲴（Xenocypris davidi）混养对水体鱼腥藻和水质的影响。实验设置鲢投放组、鲢鲴组合投放组和空白对照组,实验周期14 d。结果发现,鱼类的放养增加了实验水体的营养负荷,有鱼实验组水体中总氮、总磷、氨氮和高锰酸盐指数均高于对照组,且实验后期鲢组的营养盐浓度均高于鲢鲴组;有鱼实验组水体中叶绿素a浓度和藻密度均降低,且鲢鲴组较鲢组降低更为明显;黄尾鲴的加入可以减少水体中鱼类排泄物的积累,鲢鲴组鱼类生物量较鲢组多,但排泄物重量却低于鲢组;鲢鲴组对鱼腥藻的消化率更高,实验结束时达到79.33%,极显著高于鲢组（P<0.01）。即在鲢控藻的基础上,混养黄尾鲴可以减少鲢摄食鱼腥藻后的排泄物重量,减少因鱼类排泄物造成的二次污染。     

Experimental study of the impacts of silver carp on plankton communities of eutrophic Villerest reservoir (France)

We examined the impact of five silver carp biomass levels (0, 8, 16, 20, and 32 g m⁻³) on plankton communities and water quality of Villerest eutrophic reservoir (France). We realized the experiments using outdoor mesocosms. The presence of silver carp led to changes in zooplankton and phytoplankton assemblages. High fish biomass strongly reduced cladoceran abundance (through predation). Silver carp inefficiently grazed down particles < 20 μm. More importantly, however, the suppression of herbivorous cladocerans resulted in the increase of small size algae which were relieved from grazing and benefit from high nutrient concentrations. In contrast, in mesocosms without fish, the dominance of cladocerans (mainly Daphnia) controlled small size algae and probably also larger size algae (colonial chlorophytes, cyanobacteria). Thus, the Secchi disc transparency increased markedly. Through cascade effects, the modification of grazers communities led to changes in the utilization patterns of the added nutrients by phytoplankton communities. In high fish biomass treatments, nutrients were more efficiently accumulated into particulate fractions compared with no-fish and low-fish biomass treatments that were characterized by higher dissolved nutrients concentrations. Zooplankton was an essential source of food for silver carp. The productivity of zooplankton sustained a moderate silver carp biomass (up to 16 g m⁻³). In the presence of the highest fish biomass, the productivity of zooplankton was not large enough and silver carps fed on additional phytoplankton. Although mesocosms with high fish biomass were characterized by a slight cyanobacteria development compared with other fish mesocosms, silver carp was not effective in reducing cyanobacteria dominance. This revised version was published online in August 2006 with corrections to the Cover Date.     

Impact of moderate silver carp biomass gradient on zooplankton communities in a eutrophic reservoir. Consequences for the use of silver carp in biomanipulation.

We examined the impacts of moderate gradient silver carp biomass (five levels from 0 to 36 g.m-3, i.e. about 0-792 kg.ha-1) on zooplankton communities of the eutrophic Villerest reservoir (France). During our mesocosm experiment changes in zooplankton assemblages were dependent on silver carp biomass. In the fishless and low fish biomass treatments, zooplankton abundance increased through time, owing to a peak in cladoceran density, but decreased (mainly cladocerans) at highest fish biomass. Copepods and rotifers were less affected at the highest fish biomass and dominated zooplankton communities. We highlighted that the presence of high silver carp biomass could lead to changes in phytoplankton assemblage via the impact on herbivorous zooplankton. Since silver carp efficiently graze on particles > 20 microns, the suppression of herbivorous cladocerans could result in an increase in small size algae (< 20 microns) abundance since these species would be released from grazers as well as competitors (large algae grazed by silver carp) and nutrients levels would be enhanced by fish internal loading. Our results showed that the use of low silver carp biomass (< 200 kg.ha-1) would allow us to minimize these negative effects.     

Nutrient dependent effects of consumer identity and diversity on freshwater ecosystem function

1. Over the past decade, ecologists have tried to determine how changes in species composition and diversity affect ecosystem structure and function. Until recently, the majority of these studies have been conducted in terrestrial ecosystems and have not taken into account environmental variability. The purpose of this research was to determine how species identity and diversity in the freshwater zooplankton affected biomass of algae and zooplankton at two levels of nutrient enrichment.
2. Several species of cladocerans were grown alone and together in microcosms at both ambient and raised phosphorus concentrations to determine if the effects of consumer identity and diversity were nutrient dependent.
3. Total zooplankton biomass was greater, while algal biomass was lower, in mixed culture than in monoculture. The effects of zooplankton diversity on algal biomass, however, were only observed at raised phosphorus concentrations, suggesting that diversity effects were nutrient dependent. Specifically, diversity effects appeared to be related with biological mechanisms such as complementarity in resource use and/or facilitation.
4. More diverse communities of zooplankton appear to be better able to control algae than single species of zooplankton at high nutrient concentrations; therefore, zooplankton diversity may provide a buffer against eutrophication in freshwater ecosystems.     

Effects of temperature and light on the composition of brackish-water rock pool ecosystems

I examined the effect of temperature and light on ecosystem composition was examined in a two factorial design using microcosms set up from natural rockpool communities. Furthermore I tested if the effect of temperature on different ecosystem components was dependent on the initial community composition by using communities from seven different rockpools that differed considerably in standing stocks of phytoplankton, zooplankton, zooplankton species composition, sediment mass and nutrient concentrations. Increased light caused phytoplankton biomass to decrease while zooplankton biomass and sediment dry weight was positively correlated to increased light levels. The effect of temperature on phytoplankon was largely determined by community type. Zooplankton biomass decreased with increasing temperature between 10°C and 25°C and this trend was not significantly different between different community types. A negative effect on zooplankton biomass was found at 7°C in one community. I propose, that the stronger temperature sensitivity of metabolical cost for herbivorous organisms compared to algae productivity might explain the decrease in zooplankton biomass at high temperatures. I discuss how edibility of algae and grazer characteristics may influence the response of ecosystem composition to temperature.     

鲢放养和施肥对盐碱池塘围隔生态系统浮游生物群落的影响

报道了单养链（Hypophthalmichthys molitrix)和施肥对盐碱池塘围隔生态系统浮游生物群落的影响,链的放养使浮游植物丰度,叶绿素a 含量和和初组生产力增大,浮游植物小型化,生物量以小型硅藻和绿藻占优势,裸藻和金藻占有相当比重;浮游动物生物量减少,特别是枝角类的生物量无鱼围隔大于有鱼围隔,且多是较大型的种类,施肥特别是施无机肥能显著地提高浮游植物丰度和初级生产力,浮游动物生物量也增大,施有机肥围隔浮游植物和浮游动物生物量虽高于有鱼对照围隔,但其浮游植物初级生产力,叶绿素a含量,浮游生物多样性指数,P／R系数均较低,链鱼的生长最差,文中讨论了滤食性鱼类和施肥对浮游生物的影响。     

Studies on the Effects of Silver Carp (Hypophthalmichthys molitrix) on the Phytoplankton in a Shallow Hypereutrophic Lake through an Enclosure Experiment

The responses of nutrients, water transparency, zooplankton and phytoplankton to a gradient of silver carp biomass were assessed using enclosure methods. The gradient of four silver carp biomass levels was set as follows: 0, 116, 176 and 316 g m^—2. Nutrients did not show any statistically significant differences among the treatments. An outburst of Daphnia only occurred in fishless enclosures where phytoplankton biomass was the lowest and water clarity significantly increased. While among fish enclosures, the small‐sized Moina micrura dominated throughout the experiment and both zooplankton and phytoplankton biomasses decreased with increased fish biomass. No large colonial cyanobacterial blooms occurred in the fishless enclosures as predicted. This might be due to low water temperature, short experiment time and the occurrence of large bodied Daphnia in our experiment. Cryptophyta was the most dominant group in most of the enclosures and the lake water throughout the experiment. The fishless enclosure had much lower proportion of Cyanophyta but higher proportion of Trachelomonas sp.     

围隔中鲢和菹草控藻效果及其生态学意义

在滇池沿岸的池塘中 ,构建了面积为 10 0m2 ,水深为 85cm ,底质均为淤泥的四个围隔 ,其中在三个围隔内分别放养密度为 10 0g/m3 、75g/m3 、5 0g/m3 的鲢。它们均在一定程度上控制浮游植物的生物量并改善水体透明度 ,其中初始放养鲢 75g/m3 的围隔控制效果最明显。放养三种密度的鲢在有效控制微囊藻水华的同时 ,原先水体的优势种类发生质的变化 ,水体中浮游植物的多样性也明显增加。放鱼 2个月后 ,在生物操纵的围隔中同时种入菹草 ,在75g/m3 的鲢控藻的围隔中 ,菹草长势良好 ,浮游动物大量出现 ,透明度进一步增加     

The influence of consumer diversity and indirect facilitation on trophic level biomass and stability

The relationship between species diversity and the stability and production of trophic levels continues to receive intense scientific interest. Though facilitation is commonly cited as an essential underlying mechanism, few studies have provided evidence of the impact that indirect facilitation may have on diversity–ecosystem functioning relationships. In this laboratory study, we examined the effect of zooplankton species diversity on trophic structure (total algal and zooplankton biomass) and temporal stability of total zooplankton biomass. We utilized four species of pond zooplankton grown in either monoculture or in polyculture. When comparing responses in polycultures with responses averaged across monocultures, a positive effect of diversity on total zooplankton biomass was observed. This occurred as a result of positive facilitative effects among competing zooplankton. Daphnia pulex , a biomass dominant in monoculture, was negatively affected by the presence of interspecific competitors. In contrast, Diaphanosoma brachyurum , a species that performed poorly in monoculture, was strongly and positively affected by the presence of interspecific competitors, driving positive diversity effects on total zooplankton biomass. Positive temporal covariances among zooplankton were detected in several polyculture replicates, increasing temporal variability of total zooplankton biomass. However, this destabilizing effect was weak relative to effects of high biomass yields in polyculture which caused temporal biomass variability (as measured by the coefficient of variation) to be lower in polyculture relative to monocultures. Zooplankton diversity effects on total algal biomass were not detected. However, increased zooplankton diversity significantly altered the size structure of algae, increasing the relative abundance of large, grazer-resistant algae.     

黑龙江省的水生维管束植物

在黑龙江流域附属水体中共采集到80种植物,隶属于26科。芦、荇菜、(艹杂)等为优势种;线叶水马齿、小慈姑、芡实等为偶见种。利用多度、频度指数、优势度及生态类型等项指标对哈尔滨近郊10个泡沼中的水生维管束植物进行了分析。松花江及附属水体中主要为菰群落;乌裕尔河内流区主要为芦群落;在通肯河与阿伦河主要为蒙古香蒲群落与菖蒲群落。全省由南向北,植物群落由泥沼群落过渡到急流群落,群落结构也由复杂渐变为简单。对哈尔滨市水产所三个草塘进行了定量分析,按林德曼定律与陈洪达公式,推算了鱼产力。最后阐述了植物的营养价值及与其它一些生物的关系．