生态环境学报
生態環境學報
생태배경학보
ECOLOGY AND ENVIRONMENT
2015年
1期
49-56
,共8页
杨锐%张博睿%王玲玲%杨建军%苏文华%张光飞%杨波%周睿
楊銳%張博睿%王玲玲%楊建軍%囌文華%張光飛%楊波%週睿
양예%장박예%왕령령%양건군%소문화%장광비%양파%주예
海拔梯度%环境响应%适应对策%功能性状组合
海拔梯度%環境響應%適應對策%功能性狀組閤
해발제도%배경향응%괄응대책%공능성상조합
altitude’s gradient%environmental response%adaption strategies%functional traits’ group
植物功能性状能够显示对环境变化的响应,不同的适应对策呈现出不同的功能性状组合。干热河谷地区水分是最主要的限制性环境因子,之前的大部分研究都是集中关注于干热河谷局部地段,对于从垂直海拔上来研究不同植物在环境梯度下的变化的研究较少。干热河谷地区由于梵风效应,水分胁迫沿海拔梯度发生变化,一般表现为随海拔高度升高,气温降低,湿度和降水量增加,而蒸发量减小,辐射增强。以云南元谋干热河谷4个海拔梯度(1491.33、1730.20、1850.00、1925.57 m)中的植物为研究对象,选取叶片干物质含量(LDMC)、叶面积(LA)、比叶面积(SLA)、叶片厚度(LT)和叶密度(LD)5个功能性状,研究它们的相互关系,比较了海拔间的差异。结果表明:1)5个功能性状在不同海拔间均呈现出一定差异,变异系数由高到低为LD>LA>SLA>LT>LDMC(分别是101%、64%、56%、41%和19%);方差分析结果也表明,5个功能性状在不同海拔之间差异显著(F=56.218,P<0.01;F=7.829,P<0.01;F=11.21,P<0.01;F=7.429,P<0.01;F=19.213,P<0.01),尤其是在最低(1491.33 mm)和最高(1927.57 mm)海拔之间,各性状均具有极显著的差异;2)性状之间存在组合关系, LD与其他性状间相关性最为明显,除LDMC以外,LD与LA、SLA、LT均呈现出极显著负相关关系;LDMC与LA和LT呈极显著负相关;SLA与LA和LT呈正相关,而与LDMC显著负相关;LT与SLA显著正相关,与LA之间相关性不显著;3)在不同的海拔梯度之间,性状组合存在非同步变化现象。研究显示,元谋干热河谷地区,植物对水分环境的海拔梯度变化产生功能性状组合的响应,低海拔和高海拔物种对所处环境的适应策略不同,使得植物在海拔梯度上出现叶片功能性状组合的分化和差异。
植物功能性狀能夠顯示對環境變化的響應,不同的適應對策呈現齣不同的功能性狀組閤。榦熱河穀地區水分是最主要的限製性環境因子,之前的大部分研究都是集中關註于榦熱河穀跼部地段,對于從垂直海拔上來研究不同植物在環境梯度下的變化的研究較少。榦熱河穀地區由于梵風效應,水分脅迫沿海拔梯度髮生變化,一般錶現為隨海拔高度升高,氣溫降低,濕度和降水量增加,而蒸髮量減小,輻射增彊。以雲南元謀榦熱河穀4箇海拔梯度(1491.33、1730.20、1850.00、1925.57 m)中的植物為研究對象,選取葉片榦物質含量(LDMC)、葉麵積(LA)、比葉麵積(SLA)、葉片厚度(LT)和葉密度(LD)5箇功能性狀,研究它們的相互關繫,比較瞭海拔間的差異。結果錶明:1)5箇功能性狀在不同海拔間均呈現齣一定差異,變異繫數由高到低為LD>LA>SLA>LT>LDMC(分彆是101%、64%、56%、41%和19%);方差分析結果也錶明,5箇功能性狀在不同海拔之間差異顯著(F=56.218,P<0.01;F=7.829,P<0.01;F=11.21,P<0.01;F=7.429,P<0.01;F=19.213,P<0.01),尤其是在最低(1491.33 mm)和最高(1927.57 mm)海拔之間,各性狀均具有極顯著的差異;2)性狀之間存在組閤關繫, LD與其他性狀間相關性最為明顯,除LDMC以外,LD與LA、SLA、LT均呈現齣極顯著負相關關繫;LDMC與LA和LT呈極顯著負相關;SLA與LA和LT呈正相關,而與LDMC顯著負相關;LT與SLA顯著正相關,與LA之間相關性不顯著;3)在不同的海拔梯度之間,性狀組閤存在非同步變化現象。研究顯示,元謀榦熱河穀地區,植物對水分環境的海拔梯度變化產生功能性狀組閤的響應,低海拔和高海拔物種對所處環境的適應策略不同,使得植物在海拔梯度上齣現葉片功能性狀組閤的分化和差異。
식물공능성상능구현시대배경변화적향응,불동적괄응대책정현출불동적공능성상조합。간열하곡지구수분시최주요적한제성배경인자,지전적대부분연구도시집중관주우간열하곡국부지단,대우종수직해발상래연구불동식물재배경제도하적변화적연구교소。간열하곡지구유우범풍효응,수분협박연해발제도발생변화,일반표현위수해발고도승고,기온강저,습도화강수량증가,이증발량감소,복사증강。이운남원모간열하곡4개해발제도(1491.33、1730.20、1850.00、1925.57 m)중적식물위연구대상,선취협편간물질함량(LDMC)、협면적(LA)、비협면적(SLA)、협편후도(LT)화협밀도(LD)5개공능성상,연구타문적상호관계,비교료해발간적차이。결과표명:1)5개공능성상재불동해발간균정현출일정차이,변이계수유고도저위LD>LA>SLA>LT>LDMC(분별시101%、64%、56%、41%화19%);방차분석결과야표명,5개공능성상재불동해발지간차이현저(F=56.218,P<0.01;F=7.829,P<0.01;F=11.21,P<0.01;F=7.429,P<0.01;F=19.213,P<0.01),우기시재최저(1491.33 mm)화최고(1927.57 mm)해발지간,각성상균구유겁현저적차이;2)성상지간존재조합관계, LD여기타성상간상관성최위명현,제LDMC이외,LD여LA、SLA、LT균정현출겁현저부상관관계;LDMC여LA화LT정겁현저부상관;SLA여LA화LT정정상관,이여LDMC현저부상관;LT여SLA현저정상관,여LA지간상관성불현저;3)재불동적해발제도지간,성상조합존재비동보변화현상。연구현시,원모간열하곡지구,식물대수분배경적해발제도변화산생공능성상조합적향응,저해발화고해발물충대소처배경적괄응책략불동,사득식물재해발제도상출현협편공능성상조합적분화화차이。
The variation of environment is responded by plant functional traits, meanwhile, the different groups of plant functional trait have different ecological strategies of adaption. It is a main factor that is water restriction in dry-hot valleys and the effect of Foehn effect result the variation of water stress had changed along gradients of altitude. A number of researches have focused on local of dry-hot valleys, but the researchs of variation of different species, under the different circumstance, are not well understood in the gradient of elevation. In general, the temperature and evaporation will decrease, moisture, precipitation and solar radiation will increase along increase gradients of altitude. We used five plant functional traits, which is Leaf dry matter content (LDMC), Leaf area (LA), Specific leaf area (SLA), Leaf thickness (LT) and Leaf density (LD), to research the relationship among those traits and compared the variation among four altitudes (1 491.33, 1 730.20, 1 850.00, 1 925.57 m, respectively) in dry-hot valley of Yuan-Mou, Yunnan province. We found that: 1) there was variation that the coefficients from high to low level were LD>LA>SLA>LT>LDMC(101%, 64%, 56%, 41% and 19%, respectively), of five plant functional traits among altitudes. The ANOVA suggest the significant different of plant functional traits among altitudes especially the significant different from highest (1 491.33 mm) and lowest (1 927.57 mm) altitude (F=56.218, P<0.01; F=7.829, P<0.01; F=11.21, P<0.01; F=7.429, P<0.01;F=19.213, P<0.01, respectively);2) there were strong negative correlations between LD and LA, SLA, LT, except LDMC;strong negative correlations between LDMC and LA, LT;positive correlations between SLA and LA, LT, and negative correlated LDMC;positive correlations between LT and SLA, and non-correlated with LA;3) there were allometric scaling among group of functional traits. The results indicate that the response of plant functional traits’ group to change of hydrologic environmental gradients of altitude in dry-hot valley of Yuan-Mou. There are variation and different of group of leaf functional traits for different adaption strategies along altitude gradients.
