生态学报2018,Vol.38Issue(4):1216-1225,10.DOI:10.5846/stxb201612312719
乌兰布和沙漠东北缘荒漠-绿洲过渡带植被地上生物量估算
Estimation of aboveground biomass of vegetation in the desert-oasis ecotone on the northeastern edge of the Ulan Buh Desert
摘要
Abstract
Drylands in China are large in area and have an arid climate.The dominant vegetation is desert vegetation in drylands.Because desert vegetation is very sparse,it is difficult to extract information,such as vegetation cover and biomass,using remote sensing technology.Aboveground biomass of desert vegetation is an important indicator for evaluation of vegetation growth and desertification monitoring in dryland areas.A typical area on the desert-oasis ecotone was selected at the northeastern edge of the Ulan Buh Desert.Based on field investigation data,allometric equations of the primary plant species in the study area were established,and the aboveground biomass of vegetation in plots was estimated.Three vegetation indices,i.e.,the ratio vegetation index (RVI),normalized difference vegetation index (NDVI),and modified soil adjusted vegetation index (MSAVI),were extracted using QuickBird image data as the remote sensing data source.Regression models of the vegetation indices and aboveground biomass of artificial sand-fixing woods and desert vegetation were established based on field investigation data,and then the aboveground biomass of vegetation in the study area was estimated.The results showed that:(1) the optimal predictive variable for the aboveground biomass allometric equation for the desert shrub species,such as Haloxylon ammodendron,Artemisia desertorum,Caragana korshinskii,Tamarix ramosissima,Nitraria tangutorum,and Elaeagnus angustifolia,was their crown volume,V,and all R2 values for the equations were greater than 0.7,whereas for the desert shrub species Hedysarum scoparium the optimal predictive variable was its crown area,S,and the R2 of the equation was 0.63;(2) among the vegetation index regression models constructed using RVI,NDVI,and MSAVI,the RVI logarithmic model was the best for the estimation of aboveground biomass of artificial sand-fixing woods (R2=0.72,RMSEP =56.15),whereas the RVI linear model was the best for estimating the aboveground biomass of desert vegetation (R2=0.82,RMSEP =15.07);(3) the aboveground biomass per unit area was 90.73g/m2 and 105.28g/m2 for desert vegetation and artificial sand-fixing woods,respectively.In the study area,the area of desert vegetation and artificial sand-fixing woods was 16.189km2 and 15.685km2,respectively,the total aboveground biomass was 3.12t and the aboveground biomass decreased from east to west.In this study,the allometric equation was used to estimate aboveground biomass of desert shrub species and high-resolution remote sensing data was adopted to assess the aboveground biomass of desert vegetation and artificial sand-fixing woods.The accuracy of the results was improved,especially for the sparse desert vegetation.This research will provide a reference for desertification monitoring and remote sensing information extraction of desert vegetation data.Further exploration of reliable methods for extracting information regarding sparse desert vegetation using multi-source remote sensing data is needed.关键词
异速生长方程/植被指数/QuickBird影像/荒漠植被/稀疏植被Key words
allometric equation/vegetation index/QuickBird image/desert vegetation/sparse vegetation引用本文复制引用
叶静芸,吴波,刘明虎,高莹,高君亮,雷渊才..乌兰布和沙漠东北缘荒漠-绿洲过渡带植被地上生物量估算[J].生态学报,2018,38(4):1216-1225,10.基金项目
中国林科院基本科研业务费专项(CAFYBB2016ZD010,CAFYBB2017ZA006) (CAFYBB2016ZD010,CAFYBB2017ZA006)
国际科技合作专项(2015DFR31130) (2015DFR31130)
