林业资源管理
林業資源管理
임업자원관리
FORESTRY RESOURCE MANAGEMENT
2014年
6期
58-62,68
,共6页
曾伟生%白锦贤%宋连城%邢利军%王雪军%赵学军%张振荣
曾偉生%白錦賢%宋連城%邢利軍%王雪軍%趙學軍%張振榮
증위생%백금현%송련성%형리군%왕설군%조학군%장진영
地上生物量%地下生物量%根茎比%植冠面积%相容性%预估精度
地上生物量%地下生物量%根莖比%植冠麵積%相容性%預估精度
지상생물량%지하생물량%근경비%식관면적%상용성%예고정도
aboveground biomass%underground biomass%root-to-shoot ratio%canopy area%compatibility%prediction precision
以内蒙古自治区的常见灌木种柠条(Caragana microphylla)为研究对象,基于大样本的生物量实测数据,利用非线性误差变量联立方程组方法,建立了单株水平的地上生物量模型及其相容的地下生物量模型和根茎比模型,并建立了基于平均植冠面积和密度或覆盖度的群落水平的总生物量模型。结果表明:植冠面积是影响单株生物量的首要因子,其次才是丛生枝个数;基于植冠面积和丛生枝个数的单株地上生物量模型,其确定系数能接近0.7,但地下生物量模型的确定系数要低些,还不到0.5;单株地上生物量和地下生物量模型的平均预估精度均能达到90%左右,总生物量的平均预估精度能达到92%以上,完全可用于内蒙古自治区范围内柠条灌木林的生物量估计。以单株总生物量模型为基础,直接推导出不同密度或覆盖度的群落总生物量模型,可为建立群落水平的灌木生物量模型提供借鉴。
以內矇古自治區的常見灌木種檸條(Caragana microphylla)為研究對象,基于大樣本的生物量實測數據,利用非線性誤差變量聯立方程組方法,建立瞭單株水平的地上生物量模型及其相容的地下生物量模型和根莖比模型,併建立瞭基于平均植冠麵積和密度或覆蓋度的群落水平的總生物量模型。結果錶明:植冠麵積是影響單株生物量的首要因子,其次纔是叢生枝箇數;基于植冠麵積和叢生枝箇數的單株地上生物量模型,其確定繫數能接近0.7,但地下生物量模型的確定繫數要低些,還不到0.5;單株地上生物量和地下生物量模型的平均預估精度均能達到90%左右,總生物量的平均預估精度能達到92%以上,完全可用于內矇古自治區範圍內檸條灌木林的生物量估計。以單株總生物量模型為基礎,直接推導齣不同密度或覆蓋度的群落總生物量模型,可為建立群落水平的灌木生物量模型提供藉鑒。
이내몽고자치구적상견관목충저조(Caragana microphylla)위연구대상,기우대양본적생물량실측수거,이용비선성오차변량련립방정조방법,건립료단주수평적지상생물량모형급기상용적지하생물량모형화근경비모형,병건립료기우평균식관면적화밀도혹복개도적군낙수평적총생물량모형。결과표명:식관면적시영향단주생물량적수요인자,기차재시총생지개수;기우식관면적화총생지개수적단주지상생물량모형,기학정계수능접근0.7,단지하생물량모형적학정계수요저사,환불도0.5;단주지상생물량화지하생물량모형적평균예고정도균능체도90%좌우,총생물량적평균예고정도능체도92%이상,완전가용우내몽고자치구범위내저조관목림적생물량고계。이단주총생물량모형위기출,직접추도출불동밀도혹복개도적군락총생물량모형,가위건립군낙수평적관목생물량모형제공차감。
Based on the mensuration biomass data of the common shrub species,Caragana microphylla,in Inner Mongolia of China,the individual compatible above and underground biomass models and root-to-shoot ratio model were developed firstly using the approach of nonlinear error-in-variable simultaneous e-quations.The community-level whole biomass models based on mean canopy area and stem density or can-opy closure were constructed.The results showed that:1)the canopy area was the most important factor re-lated to shrub biomass,and the next was number of stems;2)the determination coefficient of individual aboveground biomass model based on canopy area and number of stems was close to 0.7,but that of un-derground biomass model was relatively lower,even less than 0.5;3)the mean prediction precisions of in-dividual above and below-ground biomass models were about 90%,and that of whole biomass model was more than 92%,indicating that the biomass models could be applied in shrub biomass estimation for the species in Inner Mongolia;4)the approach of deriving community-level whole biomass models from indi-vidual whole biomass model could provide a reference for modeling community-level biomass for shrub species.
