大连水产学院学报
大連水產學院學報
대련수산학원학보
JOURNAL OF DALIAN FISHERIES UNIVERSITY
2009年
6期
544-548
,共5页
王雅倩%赵文%程芳晋%杨增强
王雅倩%趙文%程芳晉%楊增彊
왕아천%조문%정방진%양증강
中国蛤蜊%体重%温度%耗氧率%排氨率
中國蛤蜊%體重%溫度%耗氧率%排氨率
중국합리%체중%온도%모양솔%배안솔
Mactra chinensis%body size%temperature%oxygen consumption%ammonia excretion
采用室内实验生态学方法研究了不同软体部干重(0.9901 g±0.540 g、0.5244 g±0.0257 g、0.2886 g±0.0421 g)和温度(13、18、23、28 ℃)对中国蛤蜊Mactra chinensis 耗氧率和排氨率的影响.结果表明:温度、个体大小对中国蛤蜊耗氧率影响极显著(P<0.01),二者的交互作用均对中国蛤蜊的耗氧率影响显著(P<0.05);中国蛤蜊单位体重耗氧率(O)与软体部干重(W)之间呈负相关关系,符合幂函数方程O=aW~(-b), 其中a的取值为0.695~1.762,平均为1.449,b的取值为0.446~0.587,平均为0.542.温度、个体大小对中国蛤蜊的排氨率影响极显著(P<0.01);随着中国蛤蜊个体的增大,其单位体重排氨率(N)逐渐降低;排氨率与其软体部干重呈负相关,它们之间可以用幂函数N=a0W~(-b0)表示.单位体重耗氧率和排氨率与温度(T)、软体部干重(W)满足以下方程:O=0.258+0.561W+0.239T(R=0.680,F=19.342,P<0.01);N=2.973+38.361W+16.897T (R=0.736,F=26.535,P<0.01).�9,b的取值为0.446~0.587,平均为0.542.温度、个体大小对中国蛤蜊的排氨率影响极显著(P<0.01);随着中国蛤蜊个体的增大,其单位体重排氨率(N)逐渐降低;排氨率与其软体部干重呈负相关,它们之间可以用幂函数N=a_0W~(-b0)表示.单位体重耗氧率和排氨率与温度(T)、软体部干重(W)满足以下方程:O=0.258+0.561W+0.239T(R=0.680,F=19.342,P<0.01);N=2.973+38.361W+16.897T (R=0.736,
採用室內實驗生態學方法研究瞭不同軟體部榦重(0.9901 g±0.540 g、0.5244 g±0.0257 g、0.2886 g±0.0421 g)和溫度(13、18、23、28 ℃)對中國蛤蜊Mactra chinensis 耗氧率和排氨率的影響.結果錶明:溫度、箇體大小對中國蛤蜊耗氧率影響極顯著(P<0.01),二者的交互作用均對中國蛤蜊的耗氧率影響顯著(P<0.05);中國蛤蜊單位體重耗氧率(O)與軟體部榦重(W)之間呈負相關關繫,符閤冪函數方程O=aW~(-b), 其中a的取值為0.695~1.762,平均為1.449,b的取值為0.446~0.587,平均為0.542.溫度、箇體大小對中國蛤蜊的排氨率影響極顯著(P<0.01);隨著中國蛤蜊箇體的增大,其單位體重排氨率(N)逐漸降低;排氨率與其軟體部榦重呈負相關,它們之間可以用冪函數N=a0W~(-b0)錶示.單位體重耗氧率和排氨率與溫度(T)、軟體部榦重(W)滿足以下方程:O=0.258+0.561W+0.239T(R=0.680,F=19.342,P<0.01);N=2.973+38.361W+16.897T (R=0.736,F=26.535,P<0.01).�9,b的取值為0.446~0.587,平均為0.542.溫度、箇體大小對中國蛤蜊的排氨率影響極顯著(P<0.01);隨著中國蛤蜊箇體的增大,其單位體重排氨率(N)逐漸降低;排氨率與其軟體部榦重呈負相關,它們之間可以用冪函數N=a_0W~(-b0)錶示.單位體重耗氧率和排氨率與溫度(T)、軟體部榦重(W)滿足以下方程:O=0.258+0.561W+0.239T(R=0.680,F=19.342,P<0.01);N=2.973+38.361W+16.897T (R=0.736,
채용실내실험생태학방법연구료불동연체부간중(0.9901 g±0.540 g、0.5244 g±0.0257 g、0.2886 g±0.0421 g)화온도(13、18、23、28 ℃)대중국합리Mactra chinensis 모양솔화배안솔적영향.결과표명:온도、개체대소대중국합리모양솔영향겁현저(P<0.01),이자적교호작용균대중국합리적모양솔영향현저(P<0.05);중국합리단위체중모양솔(O)여연체부간중(W)지간정부상관관계,부합멱함수방정O=aW~(-b), 기중a적취치위0.695~1.762,평균위1.449,b적취치위0.446~0.587,평균위0.542.온도、개체대소대중국합리적배안솔영향겁현저(P<0.01);수착중국합리개체적증대,기단위체중배안솔(N)축점강저;배안솔여기연체부간중정부상관,타문지간가이용멱함수N=a0W~(-b0)표시.단위체중모양솔화배안솔여온도(T)、연체부간중(W)만족이하방정:O=0.258+0.561W+0.239T(R=0.680,F=19.342,P<0.01);N=2.973+38.361W+16.897T (R=0.736,F=26.535,P<0.01).�9,b적취치위0.446~0.587,평균위0.542.온도、개체대소대중국합리적배안솔영향겁현저(P<0.01);수착중국합리개체적증대,기단위체중배안솔(N)축점강저;배안솔여기연체부간중정부상관,타문지간가이용멱함수N=a_0W~(-b0)표시.단위체중모양솔화배안솔여온도(T)、연체부간중(W)만족이하방정:O=0.258+0.561W+0.239T(R=0.680,F=19.342,P<0.01);N=2.973+38.361W+16.897T (R=0.736,
The oxygen consumption and ammonia excretion in clam Mactra chinensis with different dry soft part weight (0.9901 g±0.540 g,0.5244 g±0.0257 g,0.2886 g±0.0421 g)were determined under various temperature (13, 18, 23 ℃, and 28 ℃) and a salinity of 33 to evaluate the relationship between the oxygen consumption rate and the body size under controlled laboratory condition. It was found that the individual size, and temperature significantly affects on oxygen consumption rate and ammonia excretion rate (P<0.01),an the interaction of the both showed significant effects on oxygen consumption rate (O) (P<0.05). The relationship between O and dry weight of the soft tissue (W) was represented by the allometric equation O=aW~b, where a ranging from 0.695 to 1.762, with mean of 1.449, and b varying from 0.446 to 0.587, with mean of 0.542.The ammonia excretion rate decreased as the increase in body size and there was a negative exponential regressive function N=a_0W~(-b0).� O=a
