The Influence of Different Forest Characteristics on Non-point Source Pollution: A Case Study at Chaohu Basin, China

Cheng, Hao; Lin, Chunye; Wang, Liangjie; Peng, Lingyun; Zhu, Chenxi

doi:10.3390/ijerph17051790

Cited by 16 publications

(5 citation statements)

References 59 publications

(95 reference statements)

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“…The water samples were brought back to the laboratory on the day of the experiment, and the suspended matter content was measured using conventional measurement methods. The water surface spectral data were collected using an ASD Field Spec Pro portable spectrometer produced by ASD and converted to water surface remote sensing reflectance according to the method introduced by Cheng et al (16)…”

Section: Water Quality Data Sampling and Analysismentioning

confidence: 99%

Remote Estimation of Suspended Matter Concentration in Hongze Lake, China Using the Experimental Tiangong-II Moderate-resolution Wide-wavelength Imager

Lin¹,

Zhang²,

Du³

et al. 2023

Sensors and Materials

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Total suspended particulate matter (TSPM) is an important indicator of water quality. Remote sensing has advantages of wide range and high time efficiency. The use of satellites to monitor TSPM concentration is of great significance for the study of water quality and eutrophication. Using the measured data on the ground and taking Hongze Lake as the research area, we compared and analyzed seven types of suspended particulate matter concentration estimation model based on Tiangong-II wide-band moderate-resolution widewavelength images (MWI), selected the TSPM concentration estimation model suitable for the MWI data of Hongze Lake, and verified the accuracy and applicability of MWI data products. The results show that the linear model constructed by using the band ratio combination of B5/B9 MWI data as a variable has a high estimation accuracy, with a determination coefficient of 0.94, an average absolute error percentage of 12.27%, and a root mean square error of 2.97 mg/L. Compared with the TSPM estimation results from the moderate-resolution imaging spectroradiometer data obtained on the same day, the two estimation results were similar, and the change trend of TSPM concentration is basically consistent. The TSPM concentration in Hongze Lake has an obvious spatial difference. Huaihe River Bay is affected by its inflow into the lake, and its TSPM concentration is the highest. The concentration in the east of the gulf of Lihe Bay was also affected by Huaihe River Bay. Owing to eutrophication, the TSPM concentration of Chengzi Bay is relatively high in some areas.

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Section: Water Quality Data Sampling and Analysismentioning

confidence: 99%

Remote Estimation of Suspended Matter Concentration in Hongze Lake, China Using the Experimental Tiangong-II Moderate-resolution Wide-wavelength Imager

Lin¹,

Zhang²,

Du³

et al. 2023

Sensors and Materials

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“…Also, as found in the literature, the water puri ed by forests has better quality than water from urban and croplands because forests have extensive and well-developed root systems, a high density of micro and macro-organism, and higher soil organic content. These biological conditions make forest soils favourable for water in ltration and storage, helping moderate surface runoff, and increase nutrient uptakes and contaminants absorption (Neary et al 2009;Liu et al 2020;Cheng et al 2020). On the other hand, croplands and urban settlements tend to contaminate water through soil erosion induced nutrient pollution (nitrogen and phosphorus) and possible sewage and urban stormwater ow (Rode et al 2008;Klauer et al 2011;Sartorius et al 2011).…”

Section: Identi Cation Of Areas For Adaptation Measures To Changing C...mentioning

confidence: 99%

Identify the key ecosystem service providing areas for climate change adaptation in a low mountain region of Germany

Al-Qubati

Zhang

Pyarali

2022

Preprint

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The frequency of extreme weather events has increased in the latest years. The recent droughts in Europe caused severe damage in many sectors and underlined the need for adaptation. This paper aims to support decision-making for climate adaptation in a low-mountainous region of central Germany by identifying the areas and ecosystems that are susceptible and significantly impacted by droughts. We analysed temperature and precipitation trends and drought conditions in the Weisse Elster watershed. The temperature increased on both seasonal and annual scales, while precipitation decreased in some areas in the summertime and increased in the wintertime and annual scale. The standardised precipitation-evapotranspiration index (SPEI) showed worsening drought conditions, especially after the late 1980s. Applying an ecosystem services (ES) model, the response of two key ES (surface water provision and carbon sequestration) to droughts is estimated. To identify the vulnerable areas and ecosystems to droughts, the simulated spatially averaged water yield, net ecosystem productivity (NEP), and soil moisture are compared for the five worst droughts with long-term averages. Droughts caused a reduction of water yield by 54%, NEP by 18% and upper zone soil moisture by 13%. The impacts varied spatially, with the central region being worst affected while the southern region was relatively more resilient. There is an urgent need for adaptation measures to reduce the risks of droughts and enhance climate resilience. Suggestions are proposed for the adaptation of the agriculture and forest sectors.

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“…Currently, more than 60% of China's lakes have eutrophication problems, and more than 50% of the lakes' nitrogen and phosphorus originate from non-point source pollution [7,8]. For example, Lakes Chaohu [9], Taihu [10], and Dianchi [11] are typical reservoirs in China that demonstrate the water eutrophication problems caused by non-point source pollution. They are also important potable water sources; thus, contamination by non-point source pollution seriously threatens the health of the communities they supply.…”

Section: Introductionmentioning

confidence: 99%

Research on the Non-Point Source Pollution Characteristics of Important Drinking Water Sources

Hou

Zhou

Wang³

et al. 2022

Water

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In recent years, freshwater resource contamination by non-point source pollution has become particularly prominent in China. To control non-point source (NPS) pollution, it is important to estimate NPS pollution exports, identify sources of pollution, and analyze the pollution characteristics. As such, in this study, we established the modified export coefficient model based on rainfall and terrain to investigate the pollution sources and characteristics of non-point source total nitrogen (TN) and total phosphorus (TP) throughout the Huangqian Reservoir watershed—which serves as an important potable water source for the main tributary of the lower Yellow River. The results showed that: (1) In 2018, the non-point source total nitrogen (TN) and total phosphorus (TP) loads in the Huangqian Reservoir basin were 707.09 t and 114.42 t, respectively. The contribution ratios to TN export were, from high to low, rural life (33.58%), farmland (32.68%), other land use types (20.08%), and livestock and poultry breeding (13.67%). The contribution ratios to TP export were, from high to low, rural life (61.19%), livestock and poultry breeding (21.65%), farmland (12.79%), and other land use types (4.38%). The non-point source pollution primarily originated from the rural life of the water source protection zone. (2) Non-point source TN and TP pollution loads and load intensities showed significantly different spatial distribution patterns throughout the water source protection area. Specifically, their load intensities and loads were the largest in the second-class protected zone, which is the key source area of non-point source pollution. (3) When considering whether to invest in agricultural land fertilizer control or rural domestic sewage, waste, and livestock manure pollution control, the latter is demonstrably more effective. Thus, in addition to putting low-grade control on agricultural fertilizer loss, to rapidly and effectively improve potable water quality, non-point source pollution should, to a larger extent, also be controlled through measures such as establishing household biogas digesters, introducing village sewage treatment plants, and improving the recovery rate of rural domestic garbage. The research results discussed herein provide a theoretical basis for formulating a reasonable and effective protection plan for the Huangqian Reservoir water source and can potentially be used to do the same for other similar freshwater resources.

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The Influence of Different Forest Characteristics on Non-point Source Pollution: A Case Study at Chaohu Basin, China

Cited by 16 publications

References 59 publications

Remote Estimation of Suspended Matter Concentration in Hongze Lake, China Using the Experimental Tiangong-II Moderate-resolution Wide-wavelength Imager

Remote Estimation of Suspended Matter Concentration in Hongze Lake, China Using the Experimental Tiangong-II Moderate-resolution Wide-wavelength Imager

Identify the key ecosystem service providing areas for climate change adaptation in a low mountain region of Germany

Research on the Non-Point Source Pollution Characteristics of Important Drinking Water Sources

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