生态学报
生態學報
생태학보
ACTA ECOLOGICA SINICA
2007年
11期
4443-4451
,共9页
鲍雅静%李政海%韩兴国%韩国栋%仲延凯
鮑雅靜%李政海%韓興國%韓國棟%仲延凱
포아정%리정해%한흥국%한국동%중연개
羊草草原%植物的能量含量%群落作用
羊草草原%植物的能量含量%群落作用
양초초원%식물적능량함량%군락작용
Leymus chinensis steppe%caloric contents of plant%community role
根据11a的野外实验对内蒙古羊草草原群落42种植物的能量含量(含灰分)及其在群落中的相对生物量进行了研究.不同植物种地上部分的能量含量在(13156±1141) J/g和(18141±527) J/g之间变动,所有物种的平均能量含量为(16899±840) J/g,种间变异系数4.9%.小叶锦鸡儿具有最高的能量含量.禾草的平均能量含量高于杂草.根据生活型和生长型,草本物种被进一步分组,能量含量从高到低的排列顺序为:高禾草(17717±92) J/g >豆科植物(17228±433) J/g >矮禾草(17250±218) J/g >其余杂草(16784±529) J/g >半灌木(16719±69) J/g >1、2年生植物(15911±1759) J/g.42种植物的能量含量和它们在群落中的相对生物量存在显著正相关关系.根据它们在群落中的构成比例进行分组,以物种在群落中的相对生物量为权重,各组能量含量依次为:优势种(17740 J/g) >伴生种(17244 J/g-1) >偶见种(16653 J/g).高能量含量的植物更具竞争力,在群落中通常占据优势地位,而低能量含量的植物竞争力通常较弱,构成草原群落的伴生种或偶见种.
根據11a的野外實驗對內矇古羊草草原群落42種植物的能量含量(含灰分)及其在群落中的相對生物量進行瞭研究.不同植物種地上部分的能量含量在(13156±1141) J/g和(18141±527) J/g之間變動,所有物種的平均能量含量為(16899±840) J/g,種間變異繫數4.9%.小葉錦鷄兒具有最高的能量含量.禾草的平均能量含量高于雜草.根據生活型和生長型,草本物種被進一步分組,能量含量從高到低的排列順序為:高禾草(17717±92) J/g >豆科植物(17228±433) J/g >矮禾草(17250±218) J/g >其餘雜草(16784±529) J/g >半灌木(16719±69) J/g >1、2年生植物(15911±1759) J/g.42種植物的能量含量和它們在群落中的相對生物量存在顯著正相關關繫.根據它們在群落中的構成比例進行分組,以物種在群落中的相對生物量為權重,各組能量含量依次為:優勢種(17740 J/g) >伴生種(17244 J/g-1) >偶見種(16653 J/g).高能量含量的植物更具競爭力,在群落中通常佔據優勢地位,而低能量含量的植物競爭力通常較弱,構成草原群落的伴生種或偶見種.
근거11a적야외실험대내몽고양초초원군락42충식물적능량함량(함회분)급기재군락중적상대생물량진행료연구.불동식물충지상부분적능량함량재(13156±1141) J/g화(18141±527) J/g지간변동,소유물충적평균능량함량위(16899±840) J/g,충간변이계수4.9%.소협금계인구유최고적능량함량.화초적평균능량함량고우잡초.근거생활형화생장형,초본물충피진일보분조,능량함량종고도저적배렬순서위:고화초(17717±92) J/g >두과식물(17228±433) J/g >왜화초(17250±218) J/g >기여잡초(16784±529) J/g >반관목(16719±69) J/g >1、2년생식물(15911±1759) J/g.42충식물적능량함량화타문재군락중적상대생물량존재현저정상관관계.근거타문재군락중적구성비례진행분조,이물충재군락중적상대생물량위권중,각조능량함량의차위:우세충(17740 J/g) >반생충(17244 J/g-1) >우견충(16653 J/g).고능량함량적식물경구경쟁력,재군락중통상점거우세지위,이저능량함량적식물경쟁력통상교약,구성초원군락적반생충혹우견충.
The caloric contents of 42 species and their composition in a Leymus chinensis steppe community of Inner Mongolia in China were determined and analyzed for 11 years. The caloric content (x±1SD) of aboveground parts for plant species varied from (13156±1141) J/g ash-contained to (18141±527) J/g. The average caloric content of all species was (16899±840) J/g and their inter-specific CV was 4.9%. Of all the species, Caragana microphylla had the highest caloric content (18142 J/g). Grasses had a higher (P < 0.05) average caloric content (17425±291)J/g than forbs (16734±844) J/g. When the herbaceous species were classified into subgroups according to life form and growth form, the order of average caloric contents, from high to low, were: tall grasses (17717±92) J/g>Legume (17228±433) J/g>short grasses (17250±218) J/g>remaining forbs (16784±529) J/g>subshrubs (16719±69) J/g>annuals and biennials (15911±1759) J/g. There was a positive correlation (P < 0.05) between the caloric contents of 42 species and their relative biomass in the community. When all species were classified into three groups according to their composition in the community, the averaged caloric contents, weighted by the species relative biomass, followed the order: Dominant (17740 J/g)>companion (17244 J/g)>incidental (16653 J/g). The plants with high caloric contents were more competitive, which allows them to gain a dominant status, while the competitive abilities of plants with low caloric contents were generally weak. The latter made up the companion or incidental species in a steppe community.