动物学研究
動物學研究
동물학연구
ZOOLOGICAL RESEARCH
2007年
1期
41-46
,共6页
张晋东%熊晔%傅之屏%李玉杰%戴强%王跃招
張晉東%熊曄%傅之屏%李玉傑%戴彊%王躍招
장진동%웅엽%부지병%리옥걸%대강%왕약초
活动性水平%变态时体重%中华蟾蜍%高原林蛙%种间竞争
活動性水平%變態時體重%中華蟾蜍%高原林蛙%種間競爭
활동성수평%변태시체중%중화섬서%고원림와%충간경쟁
Activity level%Mass at metamorphosis%Bufo gargarizans%Rana kukunoris%Interspecific competition
实验室条件下, 通过活动性水平, 变态时的体重、增长率和完成变态所需时间考察同水塘分布的中华蟾蜍(Bufo gargarizans)和高原林蛙蝌蚪(Rana kukunoris)的竞争策略. 实验按照2×3因子设计, 即: 食物资源2个水平(高、低), 组合方式3个水平(10只中华蟾蜍蝌蚪, 记为B组; 5只中华蟾蜍蝌蚪和5只高原林蛙蝌蚪, 记为BR组; 10只高原林蛙蝌蚪, 记为R组). 中华蟾蜍蝌蚪的活动性在食物水平低时显著低于食物水平高时, 而高原林蛙蝌蚪的活动性在不同食物水平下无显著差异; 食物水平低时, 混合组的高原林蛙蝌蚪变态时体重和体重增长率都显著高于R组, 而混合组中华蟾蜍蝌蚪与B组相比无显著差异; 在不同处理组中, 食物水平低时混合组中华蟾蜍蝌蚪幼体期最短. 这些结果表明: 中华蟾蜍蝌蚪在不同食物资源条件下所选择的生存策略可能不同, 即食物资源充足时, 增加活动性获取更多食物; 食物资源有限时, 降低活动性且提前完成变态; 与中华蟾蜍蝌蚪相比, 在食物资源有限时高原林蛙蝌蚪获取食物能力更强.
實驗室條件下, 通過活動性水平, 變態時的體重、增長率和完成變態所需時間攷察同水塘分佈的中華蟾蜍(Bufo gargarizans)和高原林蛙蝌蚪(Rana kukunoris)的競爭策略. 實驗按照2×3因子設計, 即: 食物資源2箇水平(高、低), 組閤方式3箇水平(10隻中華蟾蜍蝌蚪, 記為B組; 5隻中華蟾蜍蝌蚪和5隻高原林蛙蝌蚪, 記為BR組; 10隻高原林蛙蝌蚪, 記為R組). 中華蟾蜍蝌蚪的活動性在食物水平低時顯著低于食物水平高時, 而高原林蛙蝌蚪的活動性在不同食物水平下無顯著差異; 食物水平低時, 混閤組的高原林蛙蝌蚪變態時體重和體重增長率都顯著高于R組, 而混閤組中華蟾蜍蝌蚪與B組相比無顯著差異; 在不同處理組中, 食物水平低時混閤組中華蟾蜍蝌蚪幼體期最短. 這些結果錶明: 中華蟾蜍蝌蚪在不同食物資源條件下所選擇的生存策略可能不同, 即食物資源充足時, 增加活動性穫取更多食物; 食物資源有限時, 降低活動性且提前完成變態; 與中華蟾蜍蝌蚪相比, 在食物資源有限時高原林蛙蝌蚪穫取食物能力更彊.
실험실조건하, 통과활동성수평, 변태시적체중、증장솔화완성변태소수시간고찰동수당분포적중화섬서(Bufo gargarizans)화고원림와과두(Rana kukunoris)적경쟁책략. 실험안조2×3인자설계, 즉: 식물자원2개수평(고、저), 조합방식3개수평(10지중화섬서과두, 기위B조; 5지중화섬서과두화5지고원림와과두, 기위BR조; 10지고원림와과두, 기위R조). 중화섬서과두적활동성재식물수평저시현저저우식물수평고시, 이고원림와과두적활동성재불동식물수평하무현저차이; 식물수평저시, 혼합조적고원림와과두변태시체중화체중증장솔도현저고우R조, 이혼합조중화섬서과두여B조상비무현저차이; 재불동처리조중, 식물수평저시혼합조중화섬서과두유체기최단. 저사결과표명: 중화섬서과두재불동식물자원조건하소선택적생존책략가능불동, 즉식물자원충족시, 증가활동성획취경다식물; 식물자원유한시, 강저활동성차제전완성변태; 여중화섬서과두상비, 재식물자원유한시고원림와과두획취식물능력경강.
We examined the competitive ability of larval toads (Bufo gargarizans) and frogs (Rana kukunoris) which co-occur in natural pools in the Jiuzhaigou Nature Reserve. We measured the activity level, growth rate, mass at metamorphosis and larval period in a laboratory experiment. Tadpoles of B. gargarizans were significantly more active when food was abundant than scarce, while there was no significant difference in the activity of R. kukunoris tadpoles at different food levels. At low food availability, mass at metamorphosis and growth rate of R. kukunoris were significantly increased in the presence of B. gargarizans, whereas the presence of R. kukunoris had no significant effect on the mass and growth rate of B. gargarizans. In all treatments, the larval period of B. gargarizans at low food availability was the shortest. These results suggest that B. gargarizans can adapt to different food levels by changing their activity rate. At high food level, B. gargarizans increased activity to gain more food. At low food level, B. gargarizans decreased activity and achieved early metamorphosis. However, when food resources were limited, R. kukunoris could gain more food than B. gargarizans.
