Estimating biomass of woody plants that grow in the different As-contaminated technosoils in the ore-bearing provinces of Eastern Germany
Estimating biomass of woody plants that grow in the different As-contaminated technosoils in the ore-bearing provinces of Eastern Germany
Author(s): V. M. Lovynska, S. Stankevich, S. A. Sytnyk, C. Montzka, K. K. Holoborodko, H. Heilmeier, О. WicheSubject(s): Agriculture, Physical Geopgraphy, Environmental Geography, Environmental interactions
Published by: Дніпропетровський національний університет імені Олеся Гончара
Keywords: metalloids; leaf area index; aboveground biomass; reclamation plants; multispectral images; Betula pendula; Populus tremula;
Summary/Abstract: Establishing the role of woody species as an instrument for heavy metal bioaccumulation is a relevant issue today in the context of the development of the phytoremediation system. The article presents the results of studies on the influence of different Arsenic (As) concentrations in soil on the development of aboveground biomass in Betula pendula Roth. and Populus tremula L. stands under conditions of reclamation plantings. The studies were conducted in 30 locations of birch and poplar tree plantations within the ore-producing regions of Saxony (EasternGermany) in soil with different levels of As contamination. The highest As content was noted in the technosoil of the Davidschacht site, where the metalloid content was 229.3 times greater compared with a value in a conditionally uncontaminated area (Großschirma). The values of leaf area index and aboveground biomass obtained in field measurements were presented. The aboveground biomass values in the investigated plantations ranged from 189.9 ±10.16 to 201.8 ± 19.09 t/ha, and leaf area index values ranged from 1.74 ± 0.29 to 2.05 ± 0.16 m2 /m2 . Sentinel-2A multispectral images were processed for the construction of a map of the aboveground biomass distribution within the region under study. The values of the spectral indices for leaf area index were obtained with subsequent construction of the regression dependence of the aboveground biomass in the plantings on this indicator. The RMSE value for the developed model of the dependence of aboveground biomass on the leaf area index was 17.84 t/ha, which could be considered as satisfactory and can serve as a basis for practical application of the model developed. The inverse trend in relation to locations with different levels of soil contamination with As was determined for the aboveground biomass indicator. Within the region under study, the highest value of aboveground biomass in the stands was found for the area with the lowest As level. The results showed that the correlation coefficient between the highest of the optimal spectral indices, the leaf area index, and the aboveground biomass in B. pendula and P. tremula plantings was statistically significant and approached the value of 0.7. The results presented can become a theoretical basis for monitoring the accumulation of aboveground biomass of tree stands in areas with different levels of soil contamination with As. In perspective, the presented model of biomass estimation based on spectral technologies can serve as an application basis for rapid assessment of the growth and development parameters of forest stands in As-contaminated areas.
Journal: Biosystems Diversity
- Issue Year: 31/2023
- Issue No: 4
- Page Range: 499-505
- Page Count: 7
- Language: English