Qiong Wang
Northeast Forestry University
5 Papers
Qiong Wang is an academic researcher from Northeast Forestry University. The author has contributed to research in topics: Soil water & Soil pH. The author has an hindex of 5, co-authored 5 publications.
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Papers
Spatial Variations in Concentration, Compositions of Glomalin Related Soil Protein in Poplar Plantations in Northeastern China, and Possible Relations with Soil Physicochemical Properties
TL;DR: Basic data in poplar shelterbelt forests are good for understanding the underlying mechanism of GRSP in soil functional maintenance and regression analysis clearly manifested that soil pH should be responsible for these variations.
Shelterbelt Poplar Forests Induced Soil Changes in Deep Soil Profiles and Climates Contributed Their Inter-site Variations in Dryland Regions, Northeastern China
TL;DR: Shelterbelt afforestation in northeastern China could affect aspects of soil properties down to 100 cm deep, with inter-site variations mainly controlled by climate and soil texture, and greater contribution from water characteristics in deeper soils.
Dominant Species Abundance, Vertical Structure and Plant Diversity Response to Nature Forest Protection in Northeastern China: Conservation Effects and Implications
TL;DR: Basic data is provided that can be used to evaluate the impact of the nature reserve in NE China and guide the implementation of NFPP in the long-term in the future and the most affected parameters were plant size (trees and herbs) and tree density related to forest structure, tree diversity, herb richness and evenness for diversity traits.
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Glomalin amount and compositional variation, and their associations with soil properties in farmland, northeastern China
TL;DR: Wang et al. as mentioned in this paper found that soil properties could strongly change both GRSP accumulation in soil and their compositional traits, and the definition of the most probable soil properties in regulating glomalin amount and composition in farmland at northeastern China.
Glomalin contributed more to carbon, nutrients in deeper soils, and differently associated with climates and soil properties in vertical profiles
TL;DR: Glomalin was more physiochemical-regulated in the deep soils, but more nutrient-regulation was found in the surface soils, and the findings also favor degrade soil improvement from glomalin rehabilitation.