机构地区:[1]宁夏大学西北土地退化与生态恢复省部共建国家重点实验室培育基地,银川750021 [2]宁夏大学西北退化生态系统恢复与重建教育部重点实验室,银川750021 [3]宁夏大学资源与环境学院,银川750021
出 处:《生态学报》2016年第13期4109-4121,共13页Acta Ecologica Sinica
基 金:宁夏自然科学基金项目(NZ1111)
摘 要:森林地上生物量的精确估算能够减小碳储量估算的不确定性。为了探寻一种有效地提高森林生物量估算精度的方法,探讨了基于遥感物理模型和经验统计模型估算山地森林地上生物量的方法。首先,基于Li-Strahler几何光学模型和多元前向模式(MFM)进行模型模拟,结合查找表算法(LUT)从多光谱图像HJ1B估算贺兰山研究区的森林地上生物量。其次,采用统计方法建立了2种回归模型:(1)多光谱图像HJ1B进行混合像元分解(SMA),并与雷达图像ALOS/PALSAR进行图像融合建立生物量回归模型;(2)雷达图像ALOS/PALSAR后向散射系数和实测生物量建立了生物量回归模型。用实测数据对3种算法估算结果进行精度验证。研究结果表明:采用几何光学模型和MFM算法估算的森林地上生物量精度最好(决定系数R2=0.61,均方根误差RMSE=8.33 t/hm2,P<0.001),其估算地上生物量与实测值一致性较好,估算生物量精度略优于SMA估算的精度(R2=0.60,RMSE=9.417 t/hm2);ALOS/PALSAR多元回归估算的精度最差(R2=0.39,RMSE=14.89 t/hm2)。由此可见,采用几何光学模型和混合像元分解SMA适合估算森林地上生物量,利用这2种方法进行森林地上生物量遥感监测研究具有一定的应用潜力。Forest is one of the most widely distributed terrestrial ecosystems on earth. Global-scale biomass estimation has become a research hotspot. It is important to accurately estimate the spatial distribution of forest (AGB) because its carbon budget forms part of the global carbon cycle and ecosystem productivity. have been widely used to quantitatively obtain the biophysical characteristics of vegetation canopy optical and microwave remote sensing in combination with field measurements can provide an effective estimation of forest biomass over large regions. In order to improve the accuracy of estimating forest above-ground biomass Remotely sensed data structure. The use of method to improve the above-ground biomass from remotely sensed data, the methods for obtaining AGB data using a physically-based canopy reflectance model inversion approach and two other empirical statistical regression methods were introduced in this paper. A geometric-optical canopy reflectance model was run in multiple-forward mode (MFM) using muhispectral HJ1B imagery to derive forest biomass at the Helan Mountain Nature Reserve region in the northwest of China. Structural parameters of the forest inventory were carried out in 50 separate 30 m by 30 m randomly distributed plots, and the data was used for either model development or validation. The two other empirical-statistical models were also established to estimate the biomass in the area. A multiple stepwise regression model was developed to estimate the forest above-ground biomass by integrating the field measurements of 30 sample plots with ALOS/PALSAR Synthetic Aperture Radar (SAR) backscatter remotely sensed data. The pre- processing of the HJ1B scenes included radiometric calibration, atmospheric correction, and georeferencing. Radiometric data were converted from radiance to reflectance. Additionally, spectral mixture analysis (SMA) was applied to decompose a mixture of spectral components of HJ1B into vegetation, soil, and shade fractions. The vegetation fraction
关 键 词:森林 地上生物量 环境卫星 ALOS/PALSAR 多元前向模式(MFM) 混合像元分解(SMA)
正在载入数据...
正在载入数据...
正在载入数据...
正在载入数据...
正在载入数据...
正在载入数据...
正在载入数据...
