草业学报
草業學報
초업학보
PRATACULTURAL SCIENCE
2014年
5期
69-76
,共8页
樊江文%张良侠%张文彦%钟华平
樊江文%張良俠%張文彥%鐘華平
번강문%장량협%장문언%종화평
草地%植物根系%氮和磷元素%气候因子
草地%植物根繫%氮和燐元素%氣候因子
초지%식물근계%담화린원소%기후인자
grassland%plant root%N and P elements%climate factors
在横穿内蒙古和青藏高原长达4000 km的中国草地样带中,设置了132个采样样地,采集到120个植物根系样品,对样品进行了化学元素测定。在此基础上,分析了植物根系N、P元素的基本特征,空间分布格局以及其与气候因子的关系。研究结果表明,草地植物根系P元素含量的变异系数大于N 元素,而青藏高原地区植物根系N、P含量的变异系数均高于内蒙古地区。植物根系N和P元素含量之间的相关性明显,同时,P 与N/P 的相关关系比N与N/P的相关关系更为明显。在草地类型上,高寒草甸类植物根系的N含量最低,而温性草原最高。在与生境因子的关系上,草地植物根系N含量具有随着海拔增加而降低,随年均温的增加而增加,随年均降水量的增加而降低的趋势,但其相关程度都较弱,这说明植物根系的元素含量可能受到植被组成、环境因素等多方面的综合影响。对草地植物根系元素化学计量学特征的研究,有助于为全球气候变化条件下草地的C、N、P 元素循环研究以及草地生态系统对全球气候变化的响应和适应研究提供依据,同时也可为相关生态模型提供基础数据。
在橫穿內矇古和青藏高原長達4000 km的中國草地樣帶中,設置瞭132箇採樣樣地,採集到120箇植物根繫樣品,對樣品進行瞭化學元素測定。在此基礎上,分析瞭植物根繫N、P元素的基本特徵,空間分佈格跼以及其與氣候因子的關繫。研究結果錶明,草地植物根繫P元素含量的變異繫數大于N 元素,而青藏高原地區植物根繫N、P含量的變異繫數均高于內矇古地區。植物根繫N和P元素含量之間的相關性明顯,同時,P 與N/P 的相關關繫比N與N/P的相關關繫更為明顯。在草地類型上,高寒草甸類植物根繫的N含量最低,而溫性草原最高。在與生境因子的關繫上,草地植物根繫N含量具有隨著海拔增加而降低,隨年均溫的增加而增加,隨年均降水量的增加而降低的趨勢,但其相關程度都較弱,這說明植物根繫的元素含量可能受到植被組成、環境因素等多方麵的綜閤影響。對草地植物根繫元素化學計量學特徵的研究,有助于為全毬氣候變化條件下草地的C、N、P 元素循環研究以及草地生態繫統對全毬氣候變化的響應和適應研究提供依據,同時也可為相關生態模型提供基礎數據。
재횡천내몽고화청장고원장체4000 km적중국초지양대중,설치료132개채양양지,채집도120개식물근계양품,대양품진행료화학원소측정。재차기출상,분석료식물근계N、P원소적기본특정,공간분포격국이급기여기후인자적관계。연구결과표명,초지식물근계P원소함량적변이계수대우N 원소,이청장고원지구식물근계N、P함량적변이계수균고우내몽고지구。식물근계N화P원소함량지간적상관성명현,동시,P 여N/P 적상관관계비N여N/P적상관관계경위명현。재초지류형상,고한초전류식물근계적N함량최저,이온성초원최고。재여생경인자적관계상,초지식물근계N함량구유수착해발증가이강저,수년균온적증가이증가,수년균강수량적증가이강저적추세,단기상관정도도교약,저설명식물근계적원소함량가능수도식피조성、배경인소등다방면적종합영향。대초지식물근계원소화학계량학특정적연구,유조우위전구기후변화조건하초지적C、N、P 원소순배연구이급초지생태계통대전구기후변화적향응화괄응연구제공의거,동시야가위상관생태모형제공기출수거。
120 plant root samples were collected from 132 sample plots along a 4000 km Chinese grassland tran-sect from Inner Mongolia to the Qinghai-Tibet Plateau.Plant root N and P content and their relationship to geographical and climate factors were analyzed.The aims are to understand grassland plant root stoichiometry for these two elements,in order to provide a basis for studies of grassland C,N,and P circulation under condi-tions of global climate change,to study the grassland ecosystem responses to global climate change.In addi-tion,the research may provide fundamental data for relevant ecologic models.The coefficient of variation for P content is higher than that of N in plant roots.The coefficients of variation of both P and N contents in plant roots collected from the Qinghai-Tibet area are higher than those for samples collected from the Inner Mongo-lia area.There is significant correlation between N and P levels in plant roots.In addition,the correlation be-tween P and N/P is more significant than the correlation between N and N/P.From the grassland type perspec-tive,highest and lowest values for the N content of plant root were both found in samples from the temperate steppe.From the perspective of correlation between biological and environment factors,plant root N content decreased with increasing altitude,increased with increasing of annual mean temperature,and decreased with increasing of annual precipitation.However,these correlation relation are not strong.Thus it indicate that the element content in plant root may be affected by various combination factors such as vegetation composition and environmental factors.