兰州大学学报(自然科学版)
蘭州大學學報(自然科學版)
란주대학학보(자연과학판)
JOURNAL OF LANZHOU UNIVERSITY(NATURAL SCIENCES)
2009年
6期
76-81
,共6页
陈书燕%张甲林%贾鹏%徐瑾%王刚%肖洒
陳書燕%張甲林%賈鵬%徐瑾%王剛%肖灑
진서연%장갑림%가붕%서근%왕강%초쇄
进化稳定%博弈理论模型%最优高度%影响域
進化穩定%博弈理論模型%最優高度%影響域
진화은정%박혁이론모형%최우고도%영향역
evolutionarily stable stragegy%game-theoretic model%optimal height%zone of influence
构建了以个体为基础,空间明晰的"影响域"模型来研究植物高生长对局域光竞争的可塑性反应.结果表明:植物个体会将其高度维持在一最优值以使其适合度最大,这一最优高度值会随着植物个体所经受的局域光竞争强度的增加而增大.种群中小个体相对于大个体能更早地将其高度维持在最优值,但小个体由于邻域光竞争强度过大而导致的不能继续维持在最优高度及随后的死亡过程也比大个体要早.这种植物个体间高生长可塑反应的不同步性是由于个体的局域光竞争环境存在差异而导致的.研究表明空间分布与邻域效应对植物种群中多样性的高度和高生长策略的产生具有重要意义.在植物高生长的可塑性研究中,忽略邻域效应的"平均作用"博弈理论模型往往会导致片面的,甚至是错误的结论.
構建瞭以箇體為基礎,空間明晰的"影響域"模型來研究植物高生長對跼域光競爭的可塑性反應.結果錶明:植物箇體會將其高度維持在一最優值以使其適閤度最大,這一最優高度值會隨著植物箇體所經受的跼域光競爭彊度的增加而增大.種群中小箇體相對于大箇體能更早地將其高度維持在最優值,但小箇體由于鄰域光競爭彊度過大而導緻的不能繼續維持在最優高度及隨後的死亡過程也比大箇體要早.這種植物箇體間高生長可塑反應的不同步性是由于箇體的跼域光競爭環境存在差異而導緻的.研究錶明空間分佈與鄰域效應對植物種群中多樣性的高度和高生長策略的產生具有重要意義.在植物高生長的可塑性研究中,忽略鄰域效應的"平均作用"博弈理論模型往往會導緻片麵的,甚至是錯誤的結論.
구건료이개체위기출,공간명석적"영향역"모형래연구식물고생장대국역광경쟁적가소성반응.결과표명:식물개체회장기고도유지재일최우치이사기괄합도최대,저일최우고도치회수착식물개체소경수적국역광경쟁강도적증가이증대.충군중소개체상대우대개체능경조지장기고도유지재최우치,단소개체유우린역광경쟁강도과대이도치적불능계속유지재최우고도급수후적사망과정야비대개체요조.저충식물개체간고생장가소반응적불동보성시유우개체적국역광경쟁배경존재차이이도치적.연구표명공간분포여린역효응대식물충군중다양성적고도화고생장책략적산생구유중요의의.재식물고생장적가소성연구중,홀략린역효응적"평균작용"박혁이론모형왕왕회도치편면적,심지시착오적결론.
The adaptive plasticity of plant height to light competition was investigated using a spatially explicit, individual-based plant competition model based on overlapping zones of influence. The conclusions reached are that plant should maintain its height at an optimal value in order to maximize its growth rate and this optimal height increases with the increase of the intensity of neighborhood light competition endured by the individual plant. The persistence of individual plant at this optimal height starts earlier and ends earlier for small plants than large plants, and the death process starts first for the small plants within the stand.This asynchronism of adaptive plasticity of plant height to light competition is due to the variation in local light environment among individual plants. Our results argue strongly for the importance of neighborhood effects in generating the diversity of adaptive plasticity of plant height and height growth strategy in plant population. The "mean-field" game-theoretical model is defective and even misleading for understanding of adaptive significance of plant height because it does not consider the neighborhood effects.