水产科学
水產科學
수산과학
FISHERIES SCIENCE
2014年
5期
277-282
,共6页
体长频率%生长参数%FiSAT II%偏差%鲐鱼
體長頻率%生長參數%FiSAT II%偏差%鮐魚
체장빈솔%생장삼수%FiSAT II%편차%태어
length frequency%growth parameter%FiSAT Ⅱ%bias%Scomber japonica
根据2009-2010年在东海区捕获的鲐鱼样本,产生6龄12个月的模拟数据,分析由于渔具选择或取样过程中人为因素等导致渔获样本体长频率结构可能出现的偏差对使用FiSAT Ⅱ软件估算丰满系数和渐近体长产生的影响情况。模拟研究内容包括渔获物样品数量对评估结果的影响,以及当渔获样本中小个体偏少和大个体缺失两种情况所导致评估结果的偏差情况。结果显示,渔获样品中的大个体样本对评估结果的准确性十分重要。当渔获样本数量较小,或者样本中小个体偏少时,样品中能够包含最大体长组时,估算得到的丰满系数和渐近体长与真值非常接近。但样品中大个体缺失时,即中、小个体较多,参数估计值与真实值有较大差异,其中丰满系数估计结果偏小,而渐近体长值估计结果偏高。因此,在使用FiSAT II软件估算生长参数时,所使用的渔获样本的体长频率分布应尽量与资源量群体体长结构组成一致,并且需保证最大体长组不能缺失,这样可得到较为准确的丰满系数和渐近体长的估计值,从而保证在进一步的资源量和渔获量等评估工作中得到准确的结果。
根據2009-2010年在東海區捕穫的鮐魚樣本,產生6齡12箇月的模擬數據,分析由于漁具選擇或取樣過程中人為因素等導緻漁穫樣本體長頻率結構可能齣現的偏差對使用FiSAT Ⅱ軟件估算豐滿繫數和漸近體長產生的影響情況。模擬研究內容包括漁穫物樣品數量對評估結果的影響,以及噹漁穫樣本中小箇體偏少和大箇體缺失兩種情況所導緻評估結果的偏差情況。結果顯示,漁穫樣品中的大箇體樣本對評估結果的準確性十分重要。噹漁穫樣本數量較小,或者樣本中小箇體偏少時,樣品中能夠包含最大體長組時,估算得到的豐滿繫數和漸近體長與真值非常接近。但樣品中大箇體缺失時,即中、小箇體較多,參數估計值與真實值有較大差異,其中豐滿繫數估計結果偏小,而漸近體長值估計結果偏高。因此,在使用FiSAT II軟件估算生長參數時,所使用的漁穫樣本的體長頻率分佈應儘量與資源量群體體長結構組成一緻,併且需保證最大體長組不能缺失,這樣可得到較為準確的豐滿繫數和漸近體長的估計值,從而保證在進一步的資源量和漁穫量等評估工作中得到準確的結果。
근거2009-2010년재동해구포획적태어양본,산생6령12개월적모의수거,분석유우어구선택혹취양과정중인위인소등도치어획양본체장빈솔결구가능출현적편차대사용FiSAT Ⅱ연건고산봉만계수화점근체장산생적영향정황。모의연구내용포괄어획물양품수량대평고결과적영향,이급당어획양본중소개체편소화대개체결실량충정황소도치평고결과적편차정황。결과현시,어획양품중적대개체양본대평고결과적준학성십분중요。당어획양본수량교소,혹자양본중소개체편소시,양품중능구포함최대체장조시,고산득도적봉만계수화점근체장여진치비상접근。단양품중대개체결실시,즉중、소개체교다,삼수고계치여진실치유교대차이,기중봉만계수고계결과편소,이점근체장치고계결과편고。인차,재사용FiSAT II연건고산생장삼수시,소사용적어획양본적체장빈솔분포응진량여자원량군체체장결구조성일치,병차수보증최대체장조불능결실,저양가득도교위준학적봉만계수화점근체장적고계치,종이보증재진일보적자원량화어획량등평고공작중득도준학적결과。
Simulation data of 6 ages and 12 months were developed based on mackerel (Scomber j aponica) samples collected from the East China Sea during 2009 and 2010 .The impacts of length frequency biases , w hich usually come from the fishing selectivity or man‐made factors ,on the estimates of grow th parame‐ters (L∞ and K) when using FiSAT Ⅱ ,were analyzed .Scenarios of fewer smaller fishes and lack of larger fish were considered in the simulation analyses .The results showed that the larger fishes in the sample were critical to the accuracy of estimation .When there were fewer data or fewer smaller individuals in the samples ,the estimated L∞ and K were very close to the true values if the largest length group was availa‐ble .However ,when larger individuals were absent in the samples ,the estimated parameters were differed greatly from the true values .The estimated L∞ was smaller than the true value ,while K was larger . Therefore ,when FiSAT Ⅱ is applied to the estimation of growth parameters ,the distribution of length frequency in the sample should be accordance with that in the population ,and make sure that the largest length group is available in the sample .In this way , L∞ ,K ,and the abundance and catch in further as‐sessment can be accurately obtained .
