7 results on '"Wan, Qiaozhuo"'
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2. Influence of Vegetation Coverage and Climate Environment on Soil Organic Carbon in the Qilian Mountains
- Author
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Wan, Qiaozhuo, Zhu, Guofeng, Guo, Huiwen, Zhang, Yu, Pan, Hanxiong, Yong, Leilei, and Ma, Huiying
- Published
- 2019
- Full Text
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3. Influence of Irrigation on Vertical Migration of Soil Organic Carbon in Arid Area of Inland River.
- Author
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Zhang, Wenhao, Zhu, Guofeng, Wan, Qiaozhuo, Lu, Siyu, Zhao, Ling, Qiu, Dongdong, and Lin, Xinrui
- Subjects
EMIGRATION & immigration ,SOIL infiltration ,IRRIGATION ,CARBON in soils ,PLASTIC mulching ,SOIL depth - Abstract
Soil organic carbon is very important to increase crop yield. Understanding the composition changes and migration characteristics of SOC under different irrigation conditions in arid oasis areas is of great significance for the sustainable development of agro-ecosystem and the estimation of carbon balance of farmland ecosystem in arid areas. In this paper, classical statistics and geostatistics were used to study the leaching characteristics and migration laws of soil organic carbon under different irrigation conditions in Minqin Oasis, and the leaching amount and loss process and mechanism of SOC under different irrigation conditions were quantified. The research results showed that: (1) Irrigation increased the average 0–100 cm SOC content. After irrigation, SOC content decreased first and then increased with the increase in soil depth, with the maximum value of 8.56 g/kg and the minimum value of 1.82 g/kg. Compared with that before irrigation, SOC content in 0–30 cm surface layer was in leaching state, SOC content in 30–70 cm surface layer was accumulated, and SOC content in 70–100 cm surface layer had no obvious change. (2) Water was an important factor affecting soil carbon. The greater the irrigation amount, the higher the carbon leaching rate and the greater the migration amount. The SOC content in 0–30 cm soil layer was most significantly affected by irrigation, and the migration amount of SOC gradually decreased with the increase in soil depth. The maximum leaching rate of SOC was 36.8%, the minimum leaching rate was 13.5%, and its average leaching rate was 23.4%. (3) Due to the influence of soil infiltration rate under water, SOC content in different irrigation periods showed that the greatest SOC occurred in the 0–70 cm layer, and SOC content in soil was basically the same as that in non-irrigated areas on the fifth day after irrigation. (4) Precipitation, plastic film mulching, soil physical and chemical properties and other environmental factors were important factors affecting the migration and change in SOC content. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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4. The Soil Water Evaporation Process from Mountains Based on the Stable Isotope Composition in a Headwater Basin and Northwest China.
- Author
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Yong, Leilei, Zhu, Guofeng, Wan, Qiaozhuo, Xu, Yuanxiao, Zhang, Zhuanxia, Sun, Zhigang, Ma, Huiying, Sang, Liyuan, Liu, Yuwei, Guo, Huiwen, and Zhang, Yu
- Subjects
SOIL moisture ,STABLE isotopes ,SOIL salinity ,MOUNTAIN soils ,BODIES of water ,MOUNTAINS - Abstract
Soil water is a link between different water bodies. The study of soil water evaporation is of great significance to understand the regional hydrological process, promote environmental remediation in arid areas, and rationalize ecological water use. On the basis of soil water δ
2 H and δ18 O data from April to October 2017 in the Xiying River basin in the upper reaches of the Qilian mountains, the lc-excess and Craig-Gordon model were applied to reflect the evaporating fractionation of soil water. The results show that the change in evaporation loss drives the enrichment of soil water isotopes. The signal of evaporative fractionation of soil water isotopes at different elevations has spatiotemporal heterogeneity. From the perspective of time dynamics, the evaporation loss of the whole region during the observation period was affected by temperature before July, while after July, it was controlled jointly by temperature and humidity, evaporation was weakened. Soil salt content and vegetation played an important role in evaporation loss. In terms of spatial dynamics, the soil moisture evaporation at the Xiying (2097 m) and Huajian (2390 m) stations in the foothills area is larger than that at the Nichan station (2721 m) on the hillside and Lenglong station (3637 m) on the mountain top. The surface soil water evaporation is strong, and the evaporation becomes weak with the increase of depth. The research has guiding significance for the restoration and protection of vegetation in arid areas and the formulation of reasonable animal husbandry policies. [ABSTRACT FROM AUTHOR]- Published
- 2020
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5. Effects of Ecological Water Conveyance on the Hydrochemistry of a Terminal Lake in an Inland River: A Case Study of Qingtu Lake in the Shiyang River Basin.
- Author
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Zhang, Yu, Zhu, Guofeng, Ma, Huiying, Yang, Jianxia, Pan, Hanxiong, Guo, Huiwen, Wan, Qiaozhuo, and Yong, Leilei
- Abstract
Along with the growth of the population and economic and social development, water consumption in the upper-middle reaches of inland rivers is increasing, which has resulted in long-term cutout in the lower reaches of the river, shrinkage and drying up of the wetlands around the terminal lakes, and has caused a series of ecological problems at the same time. In order to protect the fragile ecological environment, comprehensive harnessing projects have been carried out in many inland river basins in China, in which adopting ecological water conveyance to rehabilitate degraded terminal lakes and wetlands is an important means. From June 2014 to October 2017, the water in the upper-middle reaches of the Shiyang River Basin and the lake water of the terminal lake after ecological water conveyance was sampled. The effects of ecological water conveyance on the characteristics of surface water and groundwater were analyzed using, for example, the Piper triangle diagram, Gibbs boomerang envelope model, and mixing diagram. After ecological water conveyance, the ion concentration of water in Qingtu Lake was higher overall, and ion concentration of water in the unstable catchment was higher than that of the stable catchment. The time variation was characterized as high in the summer half year and low in the winter half year. The water of Qingtu Lake is of high and large salinity, and its hydrochemical type is Na–SO
4 (Cl), which is obviously different from the water in the middle-upper reaches of the Shiyang River Basin. The effects of silicate weathering and evaporation crystallization are the main factors leading to the high ion concentration in the water of Qingtu Lake. Ecological water conveyance and the strong evaporation of arid areas have intensified the salinization of water and soils in Qingtu Lake. Meanwhile, implementing the ecological water conveyance policy in the terminal lake has also led to shortage of water resources for agricultural irrigation in the middle reaches of the Shiyang River Basin. The serial negative ecological effects of the ecological water conveyance should be emphasized. [ABSTRACT FROM AUTHOR]- Published
- 2019
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6. Land-use changes lead to a decrease in carbon storage in arid region, China.
- Author
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Zhu, Guofeng, Qiu, Dongdong, Zhang, Zhuanxia, Sang, Liyuan, Liu, Yuwei, Wang, Lei, Zhao, Kailiang, Ma, Huiying, Xu, Yuanxiao, and Wan, Qiaozhuo
- Subjects
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ARID regions , *CARBON in soils , *ATMOSPHERIC nitrogen , *CLIMATE change , *FORESTED wetlands , *INSURANCE reserves , *CARBON sequestration - Abstract
[Display omitted] • Grassland degradation is the main reason for the decline in carbon storage. • The carbon storage of farmland has increased significantly. • The risk of carbon storage reduction in the future is still high. The carbon storage of terrestrial ecosystems is closely related to global climate change. Therefore, assessing the impact of land-use changes on carbon storage is instructive to reduce global carbon emissions. Taking an arid region in northwest China as an example, this paper analyzed the land-use changes in arid region from 1980 to 2015. It used the CA-Markov model to predict the land-use pattern from 2020 to 2050, the carbon storage and sequestration module in Integrated Valuation of Ecosystem Services and Tradeoffs (Invest) mode to assess and predict ecosystem carbon storage over the past 35 years and in the next 30 years and discusses the impact of land-use changes on the carbon storage of terrestrial ecosystems. The results showed that: (1) The high-value areas of carbon storage in arid region were primarily concentrated in grassland, forests and farmland, and the low-value areas of carbon storage were mainly in desert areas. (2) The carbon storage in arid region showed a downward trend. From 1980 to 2015, the carbon reserves of terrestrial ecosystems in arid region decreased by 90.95 Tg, and the net loss of carbon reserves from 2020 to 2050 was 14.72 Tg. Grassland degradation was the main reason for the reduction of carbon storage in arid region. (3) The carbon storage of farmland had increased significantly, but the expansion of farmland dominated by high carbon density grassland, wetland and forest, had reduced the overall carbon storage of the arid region. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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7. Effects of a chain of reservoirs on temporal and spatial variation in water chemistry within an endorheic basin.
- Author
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Zhu, Guofeng, Zhang, Yu, Ma, Huiying, Wan, Qiaozhuo, Zhang, Zhiyuan, Sang, Liyuan, Liu, Yuwei, and Xu, Yuanxiao
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ENDORHEIC lakes , *WATER chemistry , *SPATIAL variation , *RIVER channels , *STABLE isotopes - Abstract
[Display omitted] • Reservoir is the main place for changes of hydro chemical characteristics. • Artificial channels and reservoir systems have changed the temporal and spatial distribution of surface water chemistry. • Rock lithology and evaporate crystallization are decisive factors for surface water hydro chemistry. Reservoirs provide more than 90% of water for agricultural, municipal, and environmental flows in arid regions. Yet, these resources may be compromised if the effects of reservoirs on water chemistry are not considered. This manuscript summarizes water chemistry data collected from May 2014 to October 2018 in the Shiyang Basin, an endorheic basin in arid North-Central China, where samples were collected from a chain of reservoirs, including headwater (mountain), mid-reach (oasis), and lower (desert) reservoirs. All samples consisted of a mixture of Ca-HCO 3 , Ca (Mg)-HCO 3 , and Na-SO 4 (Cl), with concentrations increasing at lower elevations. Stable isotopes indicate that most evaporation occurs in reservoirs, rather than in stream channels. Rock lithology is the primary factor influencing water chemistry in the headwater and mid-reach reservoirs, with the additional influence of imported water from the Yellow River in the mid-reach reservoir. Water quality in the desert reservoir was primarily influenced by evaporative crystallization. We show that these reservoirs are the primary source of hydrochemical transformation in this endorheic basin, affecting both the temporal and spatial variation of water chemistry. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
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