鄱阳湖水生维管束植物生物量及其合理开发利用的初步建议

用4种不同的计算方法测定了鄱阳湖水生维管束植物的生物量。根据22个断面,199个采集点,398个样方的测定结果,得出鄱阳湖水生维管束植物的年生产量为431.76万吨(湿重),即相当于5.44×10~(-15)焦耳(能量)。其中,马来眼子菜、苦草和黑藻等3种合计约占总生物量的71.46%。全湖可供草食性鱼类食用的水生维管束植物约占总量的86.9%。文中还对4个植物带和9个群丛生物量的分布规律进行了讨论。提出了人工增殖草食性鱼类,调整湖中植被组成,保护和种植水生经济植物等合理开发利用鄱阳湖水生植物资源的初步建议。     

小兴凯湖的水生植被及其生态作用

本文论述了小兴凯湖水生植物的种类组成、植被类型、生物量及其在湖泊淤积和渔业中的作用。该湖属老年期湖泊,水生维管束植物共有25科56种,优势种为竹叶眼子菜、荇菜、芦、菰等。植被类型可划分为沉水植被、浮叶植被和挺水植被等三个亚型,包括12个主要植物群丛。全湖水生植物总生物量(湿重)为196380吨;以植物现存量计算,草食性鱼类的年生产力应为78.75吨。由于水生植物大量繁殖,为减缓湖泊的垫平作用,可适量放养草食性鱼类,控制住水生植物的过量繁殖;同时引种一些经济水生植物,压住水中杂草的生长。     

武汉东湖桡足类生物量及生产量的初步研究

本文主要论述1980—1982年武汉东湖桡足类生物量及生产量的测算结果。三周年来在东湖Ⅰ、Ⅱ采样站上共观察到5种剑水蚤:广布中剑水蚤(Mesocyclops leuckarti)、近邻剑水蚤(Cyclops vicinus vicinus)、透明温剑水蚤(Thermocyclops hyalinus)、台湾温剑水蚤(Thermocyclops taihokuensis)、锯缘真剑水蚤(Eucyclops serrulatus)和5种哲水蚤:球状许水蚤(Schmackeria forbesi)特异荡镖水蚤(Neutrodiaptomus incongruens)、右突新鏢水蚤(Neodiaptomus schmackeria)、中华原鏢水蚤(Eodiaptomus sinensis)、汤匙华哲水蚤(Sinocalanus dorrii)。其总年平均生物量为321.74毫克干重/平方米。其中剑水蚤为194.70毫克干重/平方米,占60.51%;哲水蚤为127.04毫克干重/平方米,占39.49%。总年生产量为16.959克干重/平方米。其中剑水蚤为11.225克干重/平方米,占66.19%;哲水蚤为5.734克干重/平方米,占33.81%。年P/B比为52.55;其中剑水蚤为57.63,哲水蚤为46.02。各发育阶段的年平均生物量以桡足幼体最高,其次为无节幼体,卵最低。年生产量则以无节幼体最高,其次为桡足幼体,卵最低。从各种类所占总年平均生物量、年生产量的百分比值来看,广布中剑水蚤的比值最大,其次为球状许水蚤、近邻剑水蚤和特异荡鏢水蚤。       

武汉东湖桡足类生物量及生产量的初步研究

本文主要论述1980—1982年武汉东湖桡足类生物量及生产量的测算结果。三周年来在东湖Ⅰ、Ⅱ采样站上共观察到5种剑水蚤：广布中剑水蚤(Mesocyclops leuckarti、)、近邻剑水蚤(Cyclops vicinus vicinus)、透明温剑水蚤(Thermocyclops hyalinus)、台湾温剑水蚤(Thermocyclops taihokuensis)、锯缘真剑水蚤(Eucyclops serrulatus)和5种哲水蚤：球状许水蚤(Schmackeria forbesi)特异荡镖水蚤(Neutrodiaptomus incongruens)、右突新鳔水蚤(Neodiaptomus schmackeria)、中华原镖水蚤(Eodiaptomus sinensis)、汤匙华哲水蚤(Sinocalanus dorrii)。其总年平均生物量为321．74毫克干重／平方米。其中剑水蚤为194．70毫克干重／平方米,占60．5I％;哲水蚤为127．04毫克干重／平方米,占39．49％。总年生产量为16．959克干重／平方米。其中剑水蚤为11．225克干重／平方米,占66．19％;哲水蚤为5．734克干重／平方米,占33．81％。年P／B比为52155;其中剑水蚤为57．63,哲水蚤为46．02。各发育阶段的年平均生物量以桡足幼体最高,其次为无节幼体,卵最低。年生产量则以无节幼体最高,其次为挠足幼体,卵最低。从各种类所占总年平均生物量、年生产量的百分比值来看,广布中剑水蚤的比值最大,其次为球状许水蚤、近邻剑水蚤和特异荡镖水蚤。     

转基因鱼试验湖泊铜锈环棱螺种群动态及次级生产力

2008年2月至2009年1月对转基因鱼试验湖泊铜锈环棱螺的种群生态学进行了周年研究.铜锈环棱螺的平均密度和生物量分别为28.96个/m2和17.33 g/m2,丰度最高值出现在4月(34.29个/m2和54.51 g/m2),其次为12月(25.1个/m2和36.18g/m2).试验湖泊中铜锈环棱螺在4-7月繁殖,种群中含有4个年龄组,其中2008年龄组占绝对优势.铜锈环棱螺壳长-体重方程为:lg Ww=2.8791 x 1g SL-3.4227,使用瞬时生长法测算试验湖泊铜锈环棱螺的周年生产量,带壳湿重为12.72g·m-2·a-1,去壳干重为0.74 g·m-2·a-1,P/B系数为0.42.估算试验湖泊2005年至2009年铜锈环棱螺生产量(去壳干重)分别为2.24,2.49,1.50和0.74 g·m-2·a-1.多元逐步回归分析显示总氮对铜锈环棱螺的次级生产量有显著影响,转基因鲤的捕食压力也可能是影响铜锈环棱螺生产量的重要因素.     

武汉东湖湖球蚬种群动态及生产力的研究

1999年 6月至 2 0 0 0年 5月对武汉东湖湖球蚬进行了周年研究。湖球蚬年均密度和生物量分别为 10 0 2ind /m2 和12 1g/m2 ,密度和生物量的高峰分别出现在 4月 (2 97ind /m2 )和 3月 (4 3 8g/m2 ) ;湖球蚬为一年一代 ,其种群含有 3个年龄组 ,其中 1999年龄组占绝对优势。利用瞬时增长率法和体长频率法计算湖球蚬的周年生产量为带壳湿重4 2 79g/m2 ,去壳干重 2 4 4g/m2 ,P/B系数为 3 5 5。同时湖球蚬的生产力动态也被研究 ,结果表明其生产量累积过程主要发生在春季和秋季。     

东湖大型围隔及围栏内植物群落和水质的变化

为恢复湖泊水生植被,初步研究了建在武汉东湖的大型围隔、围栏中的植物群落和水质的季节动态以及两者间的关系,结果表明：围隔、围栏中,植物生物量明显增加,漂浮植物易定植,水绵和刚毛藻易发生,植物群落结构难以自然地得到优化;养鱼对水生维管束植物的生长和恢复不利;水中总氮与总磷的变化具一致性,它们与水生植物的生物量间关系密切,围隔中水生植物的良好生长使水的总氮、总磷浓度明显降低     

武汉东湖透明溞和隆线溞一亚种的种群变动和生产量

本文报道了1980—1982年东湖二种优势枝角类:透明溞(Daphnia hyalina)和隆线溞一亚种(Daphnia carinata ssp.)的种群变动和生产量的研究结果。分析了影响种群变动和生产量的生态因子。尽管这二种枝角类在一年中有一段共存时间,但高峰期从来是错开的。一般来说,透明溞的高峰期出现在春季或冬季;而隆线溞一亚种则出现在夏季或秋季源沓ㄋ蘑蛘纠此?1980—1982年透明溞的种群密度的年平均值为28.43(17.59—38.50)个/升;隆线溞一亚种为4.64(3.79—5.31)个/升。种群的瞬时出生率(b),;通常大于瞬时增长率(r);瞬时死亡率(d)与b的季节变动在大多数情况下是一致的。透明溞的年平均生物量为0.218(0.163—0.315)毫克干重/升,生产量为9.181(4.877—13.428)毫克干重/升·年,P/B系数为42.38(27.76—56.70)。隆线溞一亚种的年平均生物量为0.046(0.039—0.060)毫克干重/升,生产量为3.417(2.752—3.829)毫克干重/升·年,P/B系数为77.04(61.24—99.74)。       

干旱对湖北省长湖水生植物多样性的影响

将断面法和地理信息系统（GIS）与全球定位系统（GPS）技术相结合,通过比较湖北省长湖2000年（干旱年）与1999年（非干旱年）的水生植物多样性,探讨了干旱对淡水湖泊水生植物多样性的影响,主要结论如下：（1）干旱对长湖淡水湖泊水生植物物种多样性无影响,但可增加优势种数目（从12个至14个）。（2）干旱使长湖水生植物群丛数目从14个增加至18个,且能显著提高各群丛的Simpson与Shannon-Wiener物种多样性指数。（3）干旱显著提高了长湖水生植被覆盖率与各群丛的盖度,并使全湖水生植被平均单位面积生物量与各群从单位面积生物量显著升高。（4）在干旱年（2000年）,长湖挺水植被消失,但浮水植被面积与沉水植被面积显著扩大：分别从1999年的3.71％与41.32%上升至2000年的12.63%与53.84%（占湖泊总面积的百分比）。（5）干旱条件下淡水湖泊水生植物的生长发育明显加快：2000年7月菹草石芽萌发率、菹草幼株长度和野菱黄叶率显著高于1999年同期值。     

洪湖野菰及其化学成分分析

野菰(Zizania latifolia)是湖北省洪湖中优势水生维管束植物,其群落占全湖355平方公里面积的127平方公里。茎和叶的年生物量为4379克鲜重/平方米,全湖总年产量121700吨干重,目前未被利用。野菰各器官的蛋白质和氨基酸含量分别以百分干重表示:根,7.0和4.76;根状茎,11.3和8.85;茎,9.5和7.15;嫩茎梢,22.4和16.53;叶,16.8和14.61。500克干叶的必需氨基酸含量接近100克干重草鱼幼鱼背肌的必需氨基酸含量。脂肪:叶中3.4～4.2,茎中2.2;粗纤维:叶中26.8～28,茎中24.2;灰分:叶中10.0,茎中5.8。菰茎含可溶性糖类30％以上,其中葡萄糖,果糖、蔗糖和麦芽糖是主要成分。结果表明野菰是一种优质饲料。     

Growth, daily ration, and gastric evacuation rates of milkfish (Chanos chanos) fed supplemental diet and natural food

Growth, daily ration, and gastric evacuation rates of milkfish ( Chanos chanos ) that fed on natural food and supplement diet were evaluated. Milkfish fingerlings (5.5g) were stocked at 1.5 fish/m² in ten 12 m² concrete tanks layered with 15-cm thick earthen bottoms. All tanks were regularly fertilized (16–20–0 and chicken manure) to maintain natural food production; 4 of the tanks additionally received a supplemental diet containing 34.3% protein and 4290 kcal/kg gross energy. Estimates or daily ration (based on dry weight of stomach contents) were calculated using the E lliot and P erson (1978) and E ggers 1977) models. Gastric evacuation rate was lower in fish that fed on natural food (1.57) compared to fish fed a supplemental diet (1.79). Consequently, the lower rate resulted in lower food intake and slower fish growth. When fish were provided a high quality supplemental diet, daily rations for fingerlings (35 g) to marketable size (116 g) ranged approximately from 0.60 to 19.68 kcal/fish/day. The deviation in daily ration (kcal/fish/day) from the above estimates may indicate the insufficient quantity of dietary energy taken by fish from natural food alone, which could be provided by supplemental diet.     

广西鲮鱼的生物学及其养殖

本文对鲮鱼的食性、年龄、生长和繁殖进行了研究,并对渔业生产提出了建议。鲮鱼以浮游植物为主要食料。在水温14.6—29.4℃时食欲旺盛。当水中溶氧量0.24—0.65毫克/升时,绝大部分个体停止摄食,而溶氧量在0.99毫克/升以上时,摄食强度很大。见到的最大个体:雌鱼体长595毫米,体重4,100克,10龄;雄鱼体长580毫米,体重3,850克,9龄。鲮鱼能在大王滩水库中自然繁殖。鲮鱼人工繁殖季节以5月初至6月中旬较适宜;催产时水温以22—29℃为好,注射催产剂的效应时间一般为4.5—6小时。见到的性成熟最小个体:郁江鲮鱼雌体长273毫米,体重525克,雄体长275毫米,体重415克;池养鲮鱼雌体长247毫米,体重366克,雄体长235毫米,体重291克。根据群众经验,一般池塘中鲮鱼每亩放养1,000尾,鲮与鲢的放养比例以3∶1较好,以鲮鱼为主体的池塘则每亩放养1,500—2,000尾较好。       

Distribution, production and role of aquatic macrophytes in a southern Michigan marl lake

A typical marl lake of the Upper Great Lakes region has very few quantitatively important aquatic macrophytes. The macrophytes, however, dominate the total primary production of the lake. Submersed vegetation is extremely sparse on the shallow (less than I m) marl bench that characterizes the littoral of these lakes, and is completely dominated by one. little-known species (Scirpus subterminalis Torr.) between 1 and 7 m. A detailed investigation of the spatial and seasonal distribution of macrophytic species and biomass showed that S. subterminalis strongly dominated the lake (79% of total biomass). S. suhterminalis represented an almost pure stand (to 200 g m^?2 mean annual ash-free dry weight) at all times of the year at intermediate depths of macrophytic growth (1–6 m). Two species of Chara (of eight varieties and forms) were present in significant quantities (12% of total biomass; to 100 g m^?2) but were severely limited to shallow depths (0-S-l m) and protected areas. Several annual submersed angiosperms were present (9% of total biomass), but only two species were quantitatively important. Potamogeton illinoensis Morong. and P. praelongus Wulfen formed brief summer peaks (less than 100 g m^?2) at 3 and 4–6 m, respectively. A striking feature of the seasonal biomass distribution of Scirpus subterminalis was the higher, viable biomass (to 150g m^?2) throughout the winter under ice cover. Cyclic fluctuations of the S. subterminalis populations were discerned at different depths, each with different periodicities. The population at 2 m exhibited a fall peak; that at 4 m had a summer maximum. The lowest overall biomass of S. subterminalis occurred in the 2 m population in June. Chara populations at 0–2 m also exhibited a relatively constant biomass throughout the year. The appearance of Nitella at 7 m in July-October and of Chara at 5 m in September-October was interpreted as an interaction between light, thermal, and carbon stratification. Estimates of macrophytic productivity of perennial (‘evergreen’) species populations whose biomass remains relatively constant throughout the year were made employing several different methods of calculation and turnover factors. All methods resulted in productivity estimates in good agreement with the conservative value of 178 g m^?2 year^?1 for the entire lake. In comparison to the other components (phyto-planktonic, epiphytic and epipelic algae) of the primary production of Lawrence Lake, the aquatic macrophytes constituted a major portion (anuual mean 82·77 g C m^?2 year^?1 or 48·3 %) of the total production of the lake. The low diversity but relatively high quantitative importance of macrophytes in marl lakes is attributed to an adverse dissolved inorganic and organic chemical milieu which inhibits phytoplanktonic production and allows only certain adapted macrophytes to develop strongly. The phenomenon of perennial biomass levels throughout the year is believed to be much more common than previously suspected and has iikely resulted from adaptations of submersed macrophytes to ameliorated conditions of water and temperatures relative to the terrestrial situation in winter.     

武汉东湖水生植物生态学研究 Ⅱ.后湖水生植被动态与水体性质

报道１９９１－１９９３年武汉东湖子湖后湖区水处植被和水体理化性质的调查结果。上前后湖水生植物较东湖其它湖区丰富,共记载了４７种,３年间水生植物生物量和水生植被分布面积变动剧烈。１９９１年水生植被分布面积约为该湖区面积的８．４％;１９９２年高达３８１ｈｍ＾２,覆盖面积达８０％;而１９９３年水生植被面积不到１％。经分析,认为目前影响后湖水生植被的扩要因子是草食性鱼类,只要停止放养     

The contribution of epiphyton to the primary production of tropical floodplain wetlands

Tropical floodplains are one of the most productive ecosystems on earth. Studies on floodplain productivity have primarily focused on trees and macrophytes, rather than algae, due to their greater biomass. However, epiphyton—algae and bacteria attached to the submerged portion of aquatic macrophytes—is a major source of energy in many tropical floodplains. Epiphyton productivity rates are unknown for most tropical floodplain wetlands, and spatial variability is not well understood. In this study, we measured primary productivity of epiphyton in Kakadu National Park in northern Australia. We estimated the relative contribution of epiphyton to aquatic production (epiphyton, + phytoplankton + macrophytes). We sampled sites dominated by different macrophyte structural types: vertical emerging grasses, horizontal emerging grasses, submerged macrophytes, and macrophytes with floating leaves. Epiphyton productivity was highly influenced by the structural type of the macrophyte. Highest potential productivity per weight was measured from epiphyton growing on macrophytes with floating leaves and horizontal grasses (1.52 ± 0.53 and 1.82 ± 0.61 mgC/dw g epiphyton/h, respectively) and lowest in submerged macrophytes and vertical grasses (0.57 ± 0.26 and 0.66 ± 0.47 mgC/dw g epiphyton/h, respectively). When considering the areal biomass of the macrophyte and the amount of epiphyton attached, epiphyton on horizontal grasses and submerged macrophytes had productivity values approximately ten times higher (45–219 mgC/m²/d) compared to those on vertical grasses and macrophytes with floating leaves (2–18 mgC/m²/d). Epiphyton contributed between 2 to 13 percent to the aquatic production of these tropical floodplain wetlands.     

放养河蟹对黑龙江东湖水库底栖动物和水生维管束植物的影响

在面积为2700hm2的东湖水库,以散养的方式养殖河蟹。在放养密度不同的情况下,研究放养河蟹对水库中底栖动物和水生植物的影响。2001年规格为220只/kg河蟹放养量为1500kg、密度为122只/hm2时,对摇蚊幼虫和寡毛类影响显著,而对其他软体动物和水生植物无显著影响。2002年同样规格的河蟹放养量增加至3500kg、密度为285只/hm2时,对底栖动物和部分沉水植物影响显著。本文对河蟹养殖容量作了讨论,认为东湖水库散养河蟹的放养量不应超过1500kg。       

Production of metabolic and waste products by intensively farmed rainbow trout, Salmo gaivdnevi Richardson

The pollution production rate as measured by the increase in the amounts of ammonia, phosphate, nitrate, urea, and faeces in an intensive fish farm is described and is related to the amount of food fed per day or the biomass weight. Pollution production varied with fish size. Main pollutants produced per kg food fed per day were ammonia 31–37 g; phosphate 5.2–5.9 g; nitrate 9–15 g and suspended solids 40–9O g. Expressed as g kg⁻¹ fish produced per day ammonia ranged from 0.3–0.8 g; phosphate 0.067–0.17 g; nitrate 0.13–0.21 g and suspended solids 0.80–0.94 g. These rates differ from those reported in previous studies and these differences may be attributed to the design of the Shearwater farming system which involves self cleaning, intensively stocked tanks, a system which ultimately gives a more accurate assessment of pollution rates.     

Intensive culture of grass carp, Ctenopharyngodon idella, in circular tanks

Fingerling grass carp ( Ctenopharyngodon idella ) were cultured in 380 1 circular fiberglass tanks at stocking densities of 0.53, 1.06, 1.59 and 2.11 fish/1. Fish were fed duckweed ( Lemna minima ) to satiation. Fish grew from 2.7 g to a maximum mean weight of 72.7 g in 88 days. Fish stocked at 0.53 fish/1 grow more rapidly than those stocked at higher densities. Mean daily consumption rates were strongly correlated with oxygen levels and when oxygen levels dropped below 4 mg/1 consumption was reduced approximately 40%. High biomass, growth, and survival rates obtained during this study indicate grass carp are well suited for intensive tank culture.     

The Ability of Aquatic Macrophytes to Assess Fish Farm Pollution in Two Salmon Rivers

The wastewater from freshwater fish farming is responsible for important water quality modifications in receiving ecosystems. These point source pollution cause local problems for the management of the freshwater environment, especially in salmon rivers. The aim of this paper is to study the relationship between plant communities and environmental factors in two rivers basins on which seven fish farms are located and to assess the relative part of water pollution compared to other environmental factors involved in water plant distribution. The disturbance due to fish farming wastewater increased both richness and diversity of aquatic plant communities and modified the distribution of 11 aquatic macrophytes. Nevertheless, the main factors involved in the aquatic plant distribution in the whole data set were not the location upstream or downstream from one point source pollution but the belonging to one river system and the habitat physical features. Relevant prediction of macrophytic communities is a useful tool for bioindication purposes but several groups of variables that manifest themselves at different spatial levels must be considered.     

Fish reduce habitat coupling by a waterbird: evidence from combined stable isotope and conventional dietary approaches

Aquatic consumers can function as habitat couplers by using allochthonous subsidies of prey that migrate across ecosystem boundaries. We examined the relative use of allochthonous (invertebrates—terrestrial or living on littoral vegetation; immigrating amphibians) versus autochthonous (aquatic invertebrates, fish) resources by the red-necked grebe Podiceps grisegena, a generalist predator, on fishless ponds versus ponds stocked with common carp Cyprinus carpio. We combined conventional methods of diet estimation with stable carbon and nitrogen analyses of egg yolks and putative prey of grebes. Prelaying grebes were observed to take mainly adult amphibians on fishless ponds and fish on stocked ponds. Alimentary tract analyses gave more weight to invertebrate prey, especially leaf beetles Donaciinae, apparently picked off water or emergent plants. Bayesian isotopic mixing models did not reveal predominance of a single food source but indicated that in the presence of fish grebes received relatively less energy for egg formation from amphibians and leaf beetles. Overall, our results show that grebes relied more on allochthonous resources (range of means 50–97 % of the biomass contribution estimated by different assessment methods) in the absence than in the presence of fish (8–23 %). We suggest that habitat coupling by waterbirds may be controlled by fish, which can suppress external prey subsidies, apart from being an attractive food for piscivorous birds.