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兴修水利枢纽后汉江产漂流性卵鱼类的繁殖生态 总被引:15,自引:0,他引:15
1.汉江产漂流性卵的鱼类至少有25种,其中经济鱼类有草鱼、青鱼、鲢、鳙、鯮、鳤、鱤、长春鳊、赤眼鳟、铜鱼、吻鮈、鳜以及三种红鲌属鱼类。2.产漂流性卵鱼类开始产卵的水温分别在16—20℃之间,经济鱼类多在18℃上下。产卵时需要有江河的涨水过程。在河流涨水的诸水文要素中,流速的增大,对促使产卵起着主要作用。不同的鱼类产卵时对流水的要求是有差异的。鱼类的产卵规模与江水的流速增大紧密相关。3.丹江水库建成后,上游的产卵场有前房、天河口和安康等10处。中游有钟祥和马良等7处,支流唐河、白河也有产卵场。就总产卵量来看,上游1977年为1745.9亿粒,中游1976年为47亿粒。上游为中游的37倍。其中,四种家鱼的产卵量,上游为171.3亿粒,中游为9.3亿粒。4.丹江口水利枢纽对汉江上游产漂流性卵鱼类繁殖的影响,主要表现为给上游提供了规模较大的繁殖群体。另一方面,由于主要产卵场分布在接近水库的江段,致使占上游总产卵量90%的鱼卵在孵化前随江水流入水库,有一部分鱼卵会受到损失。对中游的影响主要是由于水库的低温水和大坝对径流的调节,改变了中游的水文条件,导致产卵场的变迁,繁殖季节推迟和产卵规模缩小。总的来看,对上游的影响明显的有利,对于中游则不利的影响要多一些。5.根据产漂流性卵鱼类繁殖的生态习性和汉江的条件,可以认为,在汉江和类似汉江的条件下,兴建水利枢纽可以不必附建过鱼建筑物。为了充分发挥水体的渔业效益,水库区应做好渔业规划,加强经营管理。水利枢纽的下游需充分重视改变了的水文条件,特别是低温水对鱼类生活的影响,以采取补救措施。 相似文献
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为了解雅砻江中游支流力丘河的鱼类多样性现状及栖息地保护价值,于2019年9月和2020年6月、11月在力丘河11个采样点进行了3次鱼类资源调查,共采集鱼类2 557尾,隶属于2目4科9属13种。西溪高原鳅Triplophysa xiqiensis、软刺裸裂尻鱼Schizopygopsis malacanthus、短须裂腹鱼Schizothorax wangchiachii和齐口裂腹鱼Schizothorax prenanti数量较多、分布较广,其余种类仅有零星分布。丰度/生物量比较曲线表明,力丘河鱼类群落受到中等程度干扰。Spearman秩相关性系数显示,鱼类多样性与海拔呈显著负相关。非度量多维标度分析表明,不同海拔区域的鱼类群落空间结构差异显著,雅砻江干流的许多鱼类仅分布到力丘河下游普沙绒乡罗让以下河段,力丘河中游甲根坝乡以上河段及塔拉沟、色物绒沟等支流仅分布有西溪高原鳅和软刺裸裂尻鱼。由于相对较低的鱼类多样性、严酷的生态环境和海拔对鱼类分布的限制,力丘河作为雅砻江中游干流水电开发后鱼类栖息地的保护价值将一定程度降低,建议同时考虑雅砻江干流鱼类栖息地的保护。 相似文献
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金沙江中游圆口铜鱼早期资源现状 总被引:2,自引:0,他引:2
2010年6月至7月在金沙江中游攀枝花格里坪金沙滩(26°35°28.96″N,101°31°52.01″E)设置同定采样断面,开展了金沙江中游圆口铜鱼早期资源现状的调查.结果表明,金沙江中游有金安桥、朵美、皮拉海、灰拉古、观音岩5个圆口铜鱼产卵场,产卵总量为3078.2万粒.圆口铜鱼的产卵行为和产卵量受江水的温度、流量、涨落水持续时间等多个因素的影响.调查期间圆口铜鱼的产卵初始时间为6月7日,盛期在6月下旬至7月上旬.近几年来,圆口铜鱼的产卵规模呈现出逐年下降的趋势,产卵场的位置也有所改变.通过了解金沙江中游江段圆口铜鱼早期资源分布状况,为金沙江中游圆口铜鱼资源保护提供了基础资料. 相似文献
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2014 年47 月鱼类主要繁殖季节于三峡库区(重庆丰都县)进行鱼类早期资源调查, 以了解三峡库区鱼类早期资源现状, 四大家鱼在库区是否仍有产卵场等问题。调查共采集到鱼类50 种, 分属5 目9 科。采集时, 卵汛出现在6 月后流速较高的时段, 其中贝氏的数量最多, 占86.24%。仔鱼出现的高峰期为6 月上旬至7 月中旬, 太湖新银鱼的数量最多, 占58.36%, 其次为子陵吻虎鱼, 占27.04%。在仔鱼中, 种类组成呈明显的月份差异, 4 月鲤、鲫占数量优势;5 月太湖新银鱼、子陵吻 虎鱼占数量优势;6 月后鲌亚科、鳅科、鳜等种类开始出现, 种类明显增多。通过估算, 调查期间流经丰都断面的鱼卵总量为4.37108 粒, 四大家鱼鱼卵为0.21107 粒;仔鱼总量为111.98108 尾, 四大家鱼仔鱼为0.21108 尾。通过产卵场的推算, 丰都断面采集的四大家鱼来自涪陵城区江段和三峡库区上游的重庆巴南区至朱沱镇江段的产卵场。通过对卵苗漂流密度的昼夜规律分析, 6 月之前夜间仔鱼密度显著高于白天, 而6 月后仔鱼昼夜漂流密度无显著差异。本研究表明, 从三峡库尾进入三峡水库的鱼类早期资源丰富, 大部分鱼类繁殖发生在6 月以后水温较高、入库流量大、库区流速较高的时段, 库尾部分江段在流速较高时期, 仍存在四大家鱼的产卵场。 相似文献
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为了解长江中游鱼类的早期资源现状, 2017年和2018年5—7月在长江干流宜都断面开展鱼类早期资源调查,采样网具包括弶网和圆锥网。调查期间共采集鱼卵21120粒和仔鱼2123尾。利用形态学和分子生物学等方法,鉴定鱼类5目9科37种。其中,鱼卵有29种,仔鱼有27种。2017年和2018年通过宜都断面的鱼卵径流量分别为124.45×108粒和101.07×108粒,优势种为四大家鱼和贝氏?(Hemiculter bleekeri);仔鱼径流量分别为16.43×108尾和8.29×108尾,优势种为贝氏?和寡鳞飘鱼(Pseudolanbuca engraulis)。根据发育期和流速分析,四大家鱼鱼卵来源于三峡大坝下游至宜都断面之间的产卵场,仔鱼来源于三峡大坝以上的产卵场。与2009—2010年相比, 2017—2018年通过宜都断面的鱼卵径流量增大了85.3%,尤其是四大家鱼的鱼卵径流量与2005—2012年相比增加了约13倍。冗余分析(Redundancy Analysis, RDA)结果显示,流量... 相似文献
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基于单位补充量模型的西江广东鲂种群资源利用现状评价 总被引:1,自引:0,他引:1
广东鲂(Megalobrama terminalis)是珠江中下游最重要的经济鱼类之一, 但由于过度捕捞和栖息地破坏, 资源日趋衰退, 科学评估其资源利用现状, 对合理开发与科学养护具有重要意义。利用2009—2015年西江肇庆江段渔业资源调查监测数据, 分析了广东鲂生长与死亡相关特征及参数变化; 利用单位补充量渔获量(Yield per recruitment, YPR)模型、单位补充量产卵群体生物量(Spawning biomass per recruitment, SBR)和生物学参考点评估了西江肇庆江段广东鲂资源利用状况。结果表明: 西江广东鲂体长(L)和体重(W)关系为W=1.518×10–5L3.051(R2=0.962, n=2252), 生长方程为Lt=419.989[1–e–0.225(t+0.172)]; 现有捕捞强度(F平均1.27/年)远超过种群开发可承受水平(F40%=0.53, F0.1=0.27, F20%=0.94); YPRave=30.58 g, 远低于YPR0.1(36.73 g)和YPRmax(45.89 g); SBR=11.5%, 低于20%的下限临界参考点。西江广东鲂种群资源已过度开发, 处于补充型捕捞过度和生长型捕捞过度状态。目前珠江禁渔期制度的实施对广东鲂资源补充起到了良好作用, 但提高开捕体长至250 mm资源恢复效果将更明显。 相似文献
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葛坤;王银平;徐少远;沈迎东;曹乐乐;刘凯 《水生生物学报》2025,49(8):082514-1-082514-11
为了解石臼湖鱼类早期资源现状及环境影响因素, 于2023年5月9日—2023年8月9日期间, 针对石臼湖鱼类早期资源开展了逐日调查。结果显示, 共采集仔稚鱼14251尾, 鉴定出鱼类39种, 隶属于9目10科, 其中鲤科鱼类最多共27种, 占总物种数的69.23%。优势种共5种, 为子陵吻虾虎鱼(Rhinogobius giurinus )、贝氏䱗(Hemiculter bleekeri )、䱗(Hemiculter leucisculus )、陈氏新银鱼(Neosalanx tangkahkeii )、飘鱼(Pseudolaubuca sinensis )。群落构成以小型鱼类为主, 种类数占总物种数的56.41%。依据产卵类型划分, 产沉性卵鱼类物种数最多共23种, 占总物种数的58.97%; 产沉性卵鱼类采集数量最多共12394尾, 占总数量的86.97%。就时间特征而言, 共出现5次密度峰值, 最大值出现在5月13日, 为548 ind./100 m3; 7月30日出现最后一个峰值, 为365 ind./100 m3, 此后仔稚鱼密度开始波动下降。就空间特征而言, 北岸仔稚鱼密度均值最高为108 ind./100 m3, 南岸最低为79 ind./100 m3, 南岸、河道中线和北岸仔稚鱼密度差异不显著(P> 0.05)。冗余分析(RDA)表明, 水温、水位、溶氧量和透明度与仔稚鱼密度关联性较强。研究结果填补了石臼湖水域鱼类早期资源的研究空白, 可为通江湖泊鱼类资源养护和生态修复提供科学依据。 相似文献
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During June, August and October 2006, there were three multi-disciplinary surveys carried out in the Changjiang River estuary and its adjacent waters (122°00′–125°00′E, 27°50′–34°00′N) by R/V Beidou to study the species composition and abundance of ichthyoplankton (including fish eggs, larvae and juveniles), the spatial distribution of fish spawning ground and their relationship with habitat factors. There were 29, 29 and 25 grid stations sampled in the three cruises, respectively. The ichthyoplankton samples were collected by horizontally towing with a macro-plankton net (mouth diameter 80 cm, length 270 cm, mesh size 0.50 mm) at the sea surface, and the towing speed was 3.0 n mile/h at each sampling station. The towing lasted for 10 min. After hauling for each station, habitat factors including temperature and salinity were measured by Sea Bird-25 CTD. Samples were preserved in 5% formaldehyde solution immediately after sampling for analysis in laboratory. Since the trawl speed could not be accurately evaluated due to the effects of ocean currents and wind-induced wave, the amount of ichthyoplankton was evaluated by actual number of the sampling haul in each station. Ichthyoplankton collected were divided into three categories: dominant species, important species and main species by the index of relative importance (IRI). There are 71 species (including 1200 fish eggs and 2575 fish larvae and juveniles) collected during 3 cruises and 59 species have been correctly identified to species level, which belongs to 50 genera, 37 families and 9 orders; while 5 species can only be identified to genera level, 1 species only identified to family level and 6 species identified to order level. These 59 species identified to species level and 5 species identified to genera level are divided into three ecological patterns, i.e., brackish water species, neritic water species and coastal water species. Warm water species have 34 species in those 59 species identified to species level, accounting for 57.63%, warm temperature species have 25 species, accounting for 42.37%. According to the analysis of IRI, the dominant species are Engraulis japonicus (in June and August, that is important species in October), Scomber japonicus (in August), and Johnius grypotus (in October) during the survey; important species are Cynoglossus joyneri (in June and August), Trichiurus lepturus (in June, August and October), Gonorhynchus abbreviatus (in August), Stolephorus commersonii (in October), Saurida undosquamis (in October) and Saurida elongate (in October), and main species have 12 species in June, 9 species in August and 10 species in October, respectively. The amount of fish eggs and larvae of the dominant species, important species and main species (28 species) are 97.50% and 97.13% of the total amount of fish eggs and larvae, respectively, which are the important composition of fish eggs and larvae in the Changjiang River estuary and its adjacent waters.
In June and August of 2006, if compared with that in corresponding months in 1986, there are great changes in the habitat factors especially for temperature and salinity in the investigating areas: high salinity water from off-shelf is much closer to the coastal areas which results in the dramatic increase of sea surface salinity during all three surveys. Sea surface temperature, on the other hand, decreases distinctively in June, but significantly increases in August. The run-off of the Changjiang River greatly reduced due to the long-term drought in summer 2006, which is responsible for the great changes of habitat factors in the Changjiang River estuary and its adjacent waters. The habitat of the Changjiang River estuary is greatly changed, which consequently has significant influences on the spawning, breeding and the spatial distribution of spawning ground of neritic water species, such as Sardinella zunasi, Thryssa kammalensis, Thryssa mystax, Setipinna taty and S. commersonii ect, and coastal water species, such as Ilisha elongate and Konosirus punctatus ect. 相似文献
In June and August of 2006, if compared with that in corresponding months in 1986, there are great changes in the habitat factors especially for temperature and salinity in the investigating areas: high salinity water from off-shelf is much closer to the coastal areas which results in the dramatic increase of sea surface salinity during all three surveys. Sea surface temperature, on the other hand, decreases distinctively in June, but significantly increases in August. The run-off of the Changjiang River greatly reduced due to the long-term drought in summer 2006, which is responsible for the great changes of habitat factors in the Changjiang River estuary and its adjacent waters. The habitat of the Changjiang River estuary is greatly changed, which consequently has significant influences on the spawning, breeding and the spatial distribution of spawning ground of neritic water species, such as Sardinella zunasi, Thryssa kammalensis, Thryssa mystax, Setipinna taty and S. commersonii ect, and coastal water species, such as Ilisha elongate and Konosirus punctatus ect. 相似文献
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During June, August and October 2006, there were three multi-disciplinary surveys carried out in the Changjiang River estuary and its adjacent waters (122°00′–125°00′E, 27°50′–34°00′N) by R/V Beidou to study the species composition and abundance of ichthyoplankton (including fish eggs, larvae and juveniles), the spatial distribution of fish spawning ground and their relationship with habitat factors. There were 29, 29 and 25 grid stations sampled in the three cruises, respectively. The ichthyoplankton samples were collected by horizontally towing with a macro-plankton net (mouth diameter 80 cm, length 270 cm, mesh size 0.50 mm) at the sea surface, and the towing speed was 3.0 n mile/h at each sampling station. The towing lasted for 10 min. After hauling for each station, habitat factors including temperature and salinity were measured by Sea Bird-25 CTD. Samples were preserved in 5% formaldehyde solution immediately after sampling for analysis in laboratory. Since the trawl speed could not be accurately evaluated due to the effects of ocean currents and wind-induced wave, the amount of ichthyoplankton was evaluated by actual number of the sampling haul in each station. Ichthyoplankton collected were divided into three categories: dominant species, important species and main species by the index of relative importance (IRI). There are 71 species (including 1200 fish eggs and 2575 fish larvae and juveniles) collected during 3 cruises and 59 species have been correctly identified to species level, which belongs to 50 genera, 37 families and 9 orders; while 5 species can only be identified to genera level, 1 species only identified to family level and 6 species identified to order level. These 59 species identified to species level and 5 species identified to genera level are divided into three ecological patterns, i.e., brackish water species, neritic water species and coastal water species. Warm water species have 34 species in those 59 species identified to species level, accounting for 57.63%, warm temperature species have 25 species, accounting for 42.37%. According to the analysis of IRI, the dominant species are Engraulis japonicus (in June and August, that is important species in October), Scomber japonicus (in August), and Johnius grypotus (in October) during the survey; important species are Cynoglossus joyneri (in June and August), Trichiurus lepturus (in June, August and October), Gonorhynchus abbreviatus (in August), Stolephorus commersonii (in October), Saurida undosquamis (in October) and Saurida elongate (in October), and main species have 12 species in June, 9 species in August and 10 species in October, respectively. The amount of fish eggs and larvae of the dominant species, important species and main species (28 species) are 97.50% and 97.13% of the total amount of fish eggs and larvae, respectively, which are the important composition of fish eggs and larvae in the Changjiang River estuary and its adjacent waters.
In June and August of 2006, if compared with that in corresponding months in 1986, there are great changes in the habitat factors especially for temperature and salinity in the investigating areas: high salinity water from off-shelf is much closer to the coastal areas which results in the dramatic increase of sea surface salinity during all three surveys. Sea surface temperature, on the other hand, decreases distinctively in June, but significantly increases in August. The run-off of the Changjiang River greatly reduced due to the long-term drought in summer 2006, which is responsible for the great changes of habitat factors in the Changjiang River estuary and its adjacent waters. The habitat of the Changjiang River estuary is greatly changed, which consequently has significant influences on the spawning, breeding and the spatial distribution of spawning ground of neritic water species, such as Sardinella zunasi, Thryssa kammalensis, Thryssa mystax, Setipinna taty and S. commersonii ect, and coastal water species, such as Ilisha elongate and Konosirus punctatus ect. 相似文献
In June and August of 2006, if compared with that in corresponding months in 1986, there are great changes in the habitat factors especially for temperature and salinity in the investigating areas: high salinity water from off-shelf is much closer to the coastal areas which results in the dramatic increase of sea surface salinity during all three surveys. Sea surface temperature, on the other hand, decreases distinctively in June, but significantly increases in August. The run-off of the Changjiang River greatly reduced due to the long-term drought in summer 2006, which is responsible for the great changes of habitat factors in the Changjiang River estuary and its adjacent waters. The habitat of the Changjiang River estuary is greatly changed, which consequently has significant influences on the spawning, breeding and the spatial distribution of spawning ground of neritic water species, such as Sardinella zunasi, Thryssa kammalensis, Thryssa mystax, Setipinna taty and S. commersonii ect, and coastal water species, such as Ilisha elongate and Konosirus punctatus ect. 相似文献
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Weitao Chen Shuli Zhu Jiping Yang Xinhui Li Yuefei Li Jie Li 《Ecology and evolution》2021,11(16):11507
Determining the temporal community composition of fish eggs in particular regions and understanding the reproductive times of regional fish taxa are key aspects of the management and regulation of regional fish stocks. However, it is extremely difficult to accurately identify fish eggs due to the absence of diagnostic morphological characters. We sampled fish eggs in the lower Hongshuihe River (an upper mainstem of the Pearl River) between May and September 2020. We then used DNA barcoding to determine the species composition of the egg pool and to predict the spawning periods of the identified species. A total of 641 eggs and 17 larvae were chosen for molecular identification; 397 eggs and 17 larvae yielded high‐quality barcoding sequences. The high failure rate (~38%) was most likely due to long‐term storage in low concentrations of ethanol prior to molecular analysis. We successfully classified 392 eggs into 10 species and 13 larvae into four species using public databases. Most of the species identified in the egg pool were small and/or benthic, and migratory species were rare. This may partially reflect the adverse effects of hydropower cascade development in this river section. We also found that spawning periods tended to be species‐specific. Our study provides a reference for the conservation and management of regional fishery stocks. 相似文献
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1. Unlike a neighbouring sea-trout population that showed strong density-dependent survival, a resident trout population ( Salmo trutta L.) showed simple proportionate survival in the early life-stages. However, this persistent population fluctuated within narrow limits. Mature adults, especially during spawning, were the only possible life-stage left in which regulation might occur. 2. An October census, just prior to spawning, was made at five sites (total area 300 m 2 ) from 1965 to 1983. Gravel nests (redds) associated with females of known size were excavated outside these sites to obtain a power-function relationship between egg density per redd and female length (range 181–280 mm, n = 26). This relationship and the census data for females (range 186–284 mm) were used to estimate egg densities in each year-class. 3. The census data for the early life-stages (0+, 1+, 2+ trout) confirmed proportionate survival with no evidence for density-dependent regulation. In contrast, the number of spawning females produced in each year-class was strongly density dependent on the initial number of females that laid eggs at the start of the year-class. Similarly, total egg production in each year-class was density dependent on initial egg density. 4 Both relationships were well described by the Ricker and Beverton-Holt stock-recruitment models (P < 0.001) and the goodness-of-fit was similar for both models. This study is probably the first to provide clear evidence for fish population regulation in the adult, rather than the juvenile, stage. 相似文献
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Out of 52 chub Leuciscus cephalus tagged with internal radio‐transmitters, 46 migrated to spawning grounds in the River Spree, Germany. All chub started their first spawning migration on 21–22 May in both years of study, 1995 and 1996. They arrived at three different spawning grounds within a day and left after 1 to 6 days to return to their original sites. On 17 and 18 June 1995 and 1996 chub started their second spawning migration with the same pattern as the first. About 60% of all migrating chub moved between 1 and 13 km upstream to the nearest spawning ground. Some exceptions were observed: a few chub did not use the nearest spawning ground, some chub used different spawning grounds at first and second spawning or moved downstream to a spawning ground. Spawning grounds were characterized by 0·4 m s−1 current velocity, shallow depth (0·1–0·8 m) and a stony bottom, where most eggs adhered. 相似文献
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17.
A. N. Economou C. Daoulas T. Psarras R. Barbihri-Tseliki 《Journal of fish biology》1994,45(2):360-362
The courting spawning and parental care behaviours of Knipowitschia caucasica (Kawrajsky) in an aquarium are described and the earliest stages of ontogenetic development are illustrated. 相似文献
18.
V. V. Panchenko 《Russian Journal of Marine Biology》2001,27(2):111-112
We performed observations in the spawning grounds of the plain sculpin. We found that the spawning of this species in Peter the Great Bay begins in December and takes place along the coast. The egg clutches are guarded by the males. 相似文献
19.
Host Imprinting in Anemonefishes (Pisces: Pomacentridae): Does it Dictate Spawning site Preferences?
Michael Arvedlund Ingvar Bundgaard Lis E. Nielsen 《Environmental Biology of Fishes》2000,58(2):203-213
The olfactory cues, to which some species of anemonefish embryos imprint, are secreted in the mucus on the tentacles and the oral disc of the host anemone. Close contact of the eggs of anemonefishes with the host's tentacles seems therefore important to imprinting. A corollary of this observation is that if local environmental conditions sweep tentacles in one specific direction, then the eggs will be placed leeward of the tentacles, rather than to foremost way from the tentacles. Other known factors such as egg predation can also cause a spawning site preference. No study has examined the possibility of the existence of such a preference. In this study, we addressed two questions: (1) Does spawning site preference exist in anemonefishes? (2) If yes, is it possible to relate this to the imprinting hypothesis, i.e. does local ocean currents over the host anemone have any influence on this preference? Two different coral reef areas were surveyed for anemonefish groups with eggs present: Eilat and Na'ama in the Aquaba-bight, the Red Sea (RS), and areas at Lizard Island, the northern Great Barrier Reef (GBR). We found the anemonefishes Amphiprion akindynos (GBR), A. bicinctus (RS), A. melanopus (GBR), and A. perideraion (GBR), to have a distinctive spawning site preference. We discuss the relevance of these findings to anemonefish host imprinting. 相似文献
20.
Monthly trends shown by gonadosomatic indices, the prevalence of the different gonadal stages, and the size distribution of the oocytes, indicate that the large marine and commercially important plotosid Cnidoglanis macrocephalus spawns in Wilson Inlet between October and January. The conclusion that spawning occurs within this seasonally closed estuary was confirmed by the presence of males in large nests and by the capture of newly-hatched, yolk sac larvae from one of those nests. The fact that C. macrocephalus, which is also widely distributed in coastal marine waters throughout much of southern Australia, can spawn within Wilson Inlet would be of particular value to this species in those periods when closure of the estuary would preclude a seawards spawning migration. Sexual maturity is size dependent, with spawning rarely occurring before fish have reached a total length of 425 mm. Sexual maturity was attained by a few fish at the end of their second year, by several at the end of their third year and by most, if not all fish, at the end of their fourth year. Comparisons with data for the more northern and permanently open Swan Estuary indicate that C. macrocephalus also spawns within that system and that the spawning time of this species is related to water temperature. The adult male guards the larvae under its pelvic fins in burrows. The larvae increased in total length from 29 mm just after hatching to 43 mm in the 17–18 days after capture, during which time their yolk sac was resorbed. Details are given of the morphology, morphometrics, meristics and pigmentation of larval C. macrocephalus. In comparison with the larvae of three other plotosid genera, the larva of C. macrocephalus is far larger in size and more developed at hatching and takes a shorter time to transform into a juvenile. 相似文献