Table of Content

15 November 2021, Volume 32 Issue 11

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Special Features of Ecosystem Service and Ecological Product Value Accounting

Accounting for the cost of ecological degradation in Fuzhou City, China

WANG Jiao-yue, BING Long-fei, YIN Yan, XI Feng-ming, MA Ming-jing, ZHANG Wen-feng, NIU Le, ZHANG Li-xia

2021, 32(11):  3781-3792.  doi:10.13287/j.1001-9332.202100.000

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Ecological degradation accounting is a critical content of building green GDP and gross economic-ecological product (GEEP) accounting systems. With ecosystems in Fuzhou City as a research object, we built an accounting framework for the cost of ecological degradation according to the unreasonable human activity. Following the accounting framework, we calculated the ecological degradation cost in Fuzhou City of 2015 and 2018. The results showed that the ecological degradation cost in Fuzhou City of 2015 was 9.08 billion yuan, accounting for 1.6% of local GDP. For different ecosystem types, marine ecological degradation cost was the largest, about 6.311 billion yuan, accounting for 69.5% of the total loss, followed by wetland ecosystem, accounting for 28.7%, and then arable land, contributing only 1.8%. In term of functions, the cost of provisioning degradation was the largest, about 6.313 billion yuan, accounting for 69.5% of the total loss, followed by regulation loss, accounting for 27.5%, mainly from the loss of climate regulation and hydrological regulation. In the regional distribution, the ecological degradation cost was mainly concentrated in Lianjiang County, Luoyuan County, Fuqing City, and Minqing County, up to 8.092 billion yuan in total, accounting for 89.7% of total loss. Compared with 2015, the ecological degradation cost in 2018 decreased by 2.608 billion yuan, showing an obvious downward trend, with a decrease rate of 28.7%. The reductions were major in Lianjiang County (86.4%), Luoyuan County (14.8%), Fuqing City (19.9%), and Minqing County (12.6%), and mainly concentrated in marine and wetland ecosystems. Such a result indicated that people’s awareness of ecological protection in Fuzhou City was increasing, and that the ecological damage due to human activity in marine and wetland system was obviously decreased. This study provided data support for promoting regional sustainable development and ecological civilization construction.

Gross economic-ecological product accounting of Fuzhou City, China

NIU Le, WANG Jiao-yue, XI Feng-ming, YIN Yan, BING Long-fei, MA Ming-jing, ZHANG Wen-feng

2021, 32(11):  3793-3804.  doi:10.13287/j.1001-9332.202111.015

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The gross economic-ecological product (GEEP) accounting is crucial to promote the construction of ecological civilization, and practice the ideas of “lucid waters and lush mountains are invaluable assets”. GEEP accounting had been conducted at national and provincial scales, but not at urban scale. According to the economic and ecological development, the GEEP accounting framework was built in Fuzhou City. The GEEP value of Fuzhou City in 2015 and 2018 was calculated and the spatiotemporal variation was analyzed. The results showed that the GEEP value of Fuzhou City was 1208.568 billion yuan in 2015. Among which, the value of GDP and ecological regulation, and the cost of environmental degradation and ecological damage were 577.742, 636.420, 3.095 and 2.500 billion yuan, respectively. Minqing County had the highest GEEP, with a value of 170.022 billion yuan, which accounted for 14.1% of that in Fuzhou City. The lowered values were found in Fuqing City, Minhou County and Yongtai County, accounting for 12.2%, 12.1% and 10.4%, respectively. In 2018, the GEEP of Fuzhou City increased to 1445.399 billion yuan, with an increase rate of 19.6%, mainly due to the GDP increase (up by 47.4% from 2015). The highest proportions of GEEP were observed in Minqing County and Gulou District (12.0%), followed by Fuqing and Minhou counties (11.0%). Compared with 2015, the increase trends were observed for the total value of GEEP, unit area and per capita of GEEP values in Fuzhou City. The cost of environmental and ecological degradation in Fuzhou decreased by 7.2% and 12.4%, respectively, indicating that the overall ecological environment of Fuzhou was improving. The accounting of GEEP in Fuzhou could effectively make up for the shortage of GDP assessment at the urban scale in China. It could provide an instrument for Fuzhou government to formulate rational ecological civilization assessment system and promote regional sustainable development.

Regional ecological compensation accounting in Fuzhou City based on a payment for ecosystem services (PES)model

NIU Le, WANG Jiao-yue, XI Feng-ming, YIN Yan, BING Long-fei, MA Ming-jing, ZHANG Wen-feng

2021, 32(11):  3805-3814.  doi:10.13287/j.1001-9332.202111.009

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The determination of regional ecological compensation quota and spatial selection are key issues in the study of horizontal transfer payment ecological compensation mechanism. Taking 12 districts of Fuzhou City as the basic research unit, we accounted the ecological function values of forest, grassland, wetland, agriculture, and marine ecosystems in 2015 and 2018. Combined with local economic development situation, we constructed an ecological compensation model. With this model, we determined the ecological compensation quota and spatial distribution of different ecosystems in various districts and counties of Fuzhou. The results showed that from 2015 to 2018, Gulou District had the largest ecological payment, with 36.384 billion yuan, followed by Mawei, Cangshan and Jin’an districts, with 7.809, 6.974 and 6.669 billion yuan, respectively. Luoyuan County and Taijiang District had lower payment, which were 2.942 and 1.903 billion yuan respectively. Among the areas requiring ecological compensation, Lianjiang County and Changle District had high compensation quotas, being 25.120 and 20.261 billion yuan, followed by Yongtai County (12.570 billion yuan). The compensation amounts in Minhou County, Fuqing City and Minqing County were less than 10 billion yuan. The distribution of ecological compensation differed across various ecosystems. In general, the main ecological compensation areas of forest, grassland, wetland and agriculture ecosystem were in Yongtai, Minqing, Minhou, Lianjiang and Luoyuan counties. The compensation amounts were 2.424-31.379 billion yuan in forest, 1.181-20.708 billion yuan in grassland, 1.015-45.493 billion yuan in wetland, and 5.780-23.954 billion yuan in cropland. The main regions that need compensation for marine ecosystem were Lianjiang County, Changle District, and Fuqing City, with the amount of compensation being 8.216-47.854 billion yuan. The results could properly reflect the coordinated development of regional ecological and economic conditions, which could provide a reference for the improvement of the ecological compensation mechanism in Fuzhou City.

Application of ecosystem value in policy system design: A case study of Fuzhou City, China

YIN Yan, XI Feng-ming, WANG Jiao-yue, BING Long-fei, DU Li-yu

2021, 32(11):  3815-3823.  doi:10.13287/j.1001-9332.202111.006

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On the basis of exploring the replicable, popularized and demonstrative accounting model of ecosystem value, it is critically needed to solve how to reasonably apply the accounting results of ecosystem value, form the application system of ecosystem value policy system, and promote the transformation of ecosystem service value from “accounting value” to “policy point”. With the accounting of Fuzhou Gross Economic Ecological Product (GEEP) and Gross Ecosystem Product (GEP) as the starting point, we screened GEEP for indicators, calculated the green gold index and GEP per unit area, and analyzed the application mode in the policy and system design. The results showed that pollutant absorption, species conservation renewal energy values, wetland severe threat area proportion, air negative oxygen ions released volume, arable land occupancy rate, marine reclamation area proportion, carbon fixation quantity, oxygen release quantity, grassland cover change rate, coast protection area and environmental degradation cost of solid waste were the indicators significantly affecting the GEEP accounting results. The green gold index of Fuzhou City in 2015 and 2018 were 1.59 and 1.23, respectively, higher than that at the whole country level. The trends of GEP per unit area followed an order of wetland ecosystem> forest ecosystem> farmland ecosystem> grassland ecosystem> marine ecosystem. Based on the influencing factors of GEEP, green gold index and GEP per unit area, the management system and mode of “entering decision-making, planning, assessment and monitoring” of ecosystem values accounting results were constructed, which would provide a theoretical basis for the formation of a long-term mechanism for promoting the construction of ecological civilization in China.

Wetland ecosystem service function and its value accounting:A case study of Fuzhou City, China

WANG Jiao-yue, BING Long-fei, YIN Yan, XI Feng-ming, MA Ming-jing, ZHANG Wen-feng

2021, 32(11):  3824-3834.  doi:10.13287/j.1001-9332.202111.017

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Wetland plays an important role in ecological protection and social development. Scientific and rational evaluation of the values of wetland ecosystem service is the basis of protection and sustainable utilization of wetland resources. How to scientifically and effectively assess the wetland ecosystem gross ecosystem product (GEP) and make it into the national GDP accounting system are the focus of the scientific community and government departments. In this study, the accounting framework of wetland ecosystem GEP was constructed. Based on multi-source data and from the aspects of function and value, the accounting of wetland GEP in Fuzhou City was carried out. The results showed that the GEP of wetland ecosystem in Fuzhou City was 239.23 billion yuan in 2015. Such value mainly came from the ecological regulation service value (157.869 billion yuan), which accounted for 66.0% of the total and was about 2.2 and 15.6 times of the product supply service value and cultural service value. Among the ecological regulation services of wetlands, hydrodynamic regulation service and climate regulation service were the highest. Together, they accounted for 82.9% of the ecological regulation service value. The ecological regulation value per unit area of wetland in Fuzhou City was 1347.8 thousand yuan·hm^-2, which was higher than the mean level of the whole country. In the districts and counties of Fuzhou City, the value of wetland ecosystem in Minqing County was the largest, about 88.83 billion yuan, accounting for 40.1% of the total value of product supply and ecological regulation. In terms of types, coastal wetlands in Fuzhou City had the largest function of ecological regulation services, which was about 2.5 times of that of river wetlands and constructed wetlands. The accounting of GEP of wetland ecosystem in Fuzhou City is an important practice for the conviction of “lucid waters and lush mountains are invaluable assets”, which would provide technical support for guiding local government to scientifically manage wetland ecosystem.

Accounting of gross ecosystem product in Fuzhou City,China

DENG Jiao-jiao, CHANG Lu, ZHANG Yue, ZHOU Wang-ming, QI Lin, ZHOU Li, YU Da-pao

2021, 32(11):  3835-3844.  doi:10.13287/j.1001-9332.202111.018

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Carrying out the accounting of ecological system gross ecosystem product (GEP) is a necessary measure to promote the construction of ecological civilization system and an important measure for the integration of ecological benefits into the economic and social development evaluation system. Taking Fuzhou City as the object, we constructed an ecosystem value accounting system with the characteristics of “mountain, sea, and city” to calculate the GEP of Fuzhou City in 2015 and 2018, and compared them from the perspective of temporal and spatial changes. The results showed that the GEP of Fuzhou in 2015 and 2018 was 920.592 and 1047.242 billion yuan, respectively. The per capita GEP in 2015 and 2018 was 130200 and 143900 yuan, the supply service value of ecological products was 94.181 and 110.261 billion yuan, the value of ecological regulation was 636.42 and 598.851 billion yuan, and the service value of ecological culture was 189.991 and 338.13 billion yuan, respectively. Compared with that in 2015, the GEP of Fuzhou City in 2018 increased by 126.65 billion yuan, with an increase of 13.8%, which was mainly due to the increases in ecological product supply service and cultural service. The value of ecological regulation services decreased by 37.569 billion yuan, with a reduction of 5.9%, which was mainly due to the decreases in climate regulation, water flow regulation and water purification services. Fuzhou City took the lead in exploring the establishment of accounting system with the characteristics of “mountain, sea, and city”, which could provide a “Fuzhou model” for the accounting work of other cities in Fujian Province and other regions in China, and promote the establishment of a long-term mechanism for realizing the value of ecological products.

Decoupling between resources and environment and economic growth in Fujian Province, China from the perspective of “water-energy-carbon”consumption

YU Jin-ru, WANG Yuan, YU Fan, LUO Jin, LAI Wen-ting

2021, 32(11):  3845-3855.  doi:10.13287/j.1001-9332.202111.008

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It is of great significance to clarify the decoupling relationship among resource consumption, environmental pollution, and economic growth, and to uncover the driving mechanism within the relationship for Fujian Province, one of the national ecological civilization construction demonstration zones. By constructing the “water-energy-carbon” resource and environment input-output model, we analyzed the industrial “water-energy-carbon” resource and environment pressure in Fujian Province. On the basis of the decoupling theory and Logarithmic Mean Divisia Index method, we explored the decoupling among resource consumption, environmental pollution, and economic growth and detected driving factors behind the decoupling state in various industries. The results showed that resource and environmental pressure state dominated by virtual water in Fujian Province had shifted to the multi-dimensional resource and environmental pressure state dominated by implied carbon from 2002 to 2017. There were distinctive differences among various industries. From the perspective of industry sectors, there was a relatively high direct resource and environmental pressure in the production and supply sector, as well as a more distinguishing indirect resource and environmental pressure in the manufacturing sector. The decoupling state generally appeared reasonable, mainly in weak decoupling and strong decoupling states. The economic and population effects were the two main factors inhibiting the decoupling sate, while the technical and structural effects promoted the decoupling state.

Accounting and red uction path of carbon emission firom facility agriculture in China

YIN Yan, XI Feng-ming, BING Long-fei, WANG Jiao-yue, LI Jie-ying, DU Li-yu, LIU Li

2021, 32(11):  3856-3864.  doi:10.13287/j.1001-9332.202111.019

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Facility agriculture, a typical agricultural production management mode, could affect carbon cycle due to its unique production environmental conditions and highly intensive utilization. With the five main sources as accounting objects, including agricultural film investment, energy consumption, pesticide and fertilizer application, CO₂ fertilizer application, and facility soil, we estimated the amount and intensity of carbon emission of three facility agriculture (continuous greenhouse, solar greenhouse, and plastic greenhouse) in 31 provinces in 2018. The results showed that the total carbon emission of facility agriculture in China was 210.3817 million t CO₂e, with the three facility agriculture types of plastic greenhouse, solar greenhouse, and continuous greenhouse accounting for 60.2%, 37.4% and 2.4%, respectively. Carbon emission of facility agriculture was mainly contributed by soil greenhouse gas, agricultural film and supplies investment. Carbon emission per unit area of continuous greenhouses was significantly lower than that of solar and plastic greenhouses. The scientific capital allocation rate and facility agriculture scale were the two main factors influencing the carbon emission in facility agriculture. Based on all the results, we presented the carbon emission reduction path from the three perspectives of improving the scientific investment, material consumption utilization rate, and facility area utilization rate of facility agriculture.

Accounting and drivers of carbon emission from cultivated land utilization in Northeast China

ZHOU Si-yu, XI Feng-ming, YIN Yan, BING Long-fei, WANG Jiao-yue, MA Ming-jing, ZHANG Wen-feng

2021, 32(11):  3865-3871.  doi:10.13287/j.1001-9332.202111.003

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With the continuous development of China’s society and economy, the breadth and depth of cultivated land resources development and utilization have been continuously expanded, while the production efficiency and scale of cultivated land gradually have been improved. There were rapidly increases of carbon emission induced from cultivated land management, such as the agricultural inputs and energy consumptions. Taking carbon emission from cultivated land utilization in Northeast China as the research object, we determined the carbon emission accounting framework system according to the life cycle method. Based on estimation results of carbon emissions from 1979 to 2015 in Northeast China, the driver factor system affecting agricultural carbon emissions was constructed using logarithmic mean Divisia index model and the influence mechanism of cultivated land carbon emissions in Northeast China was deeply explored. The results showed that total carbon emission from cultivated land utilization in 2015 was 21.9% higher than that in 1979 and carbon emission intensity in 2015 was 1.54 t·hm^-2 lower than that in 1979. Soil management and agricultural inputs were the main sources of carbon emissions from cultivated land accounting for 83.6% of the total carbon emissions. The increases of land productivity and science and technology fund allocation rate were found to be the driving factors of carbon emission from cultivated land utilization. On the contrary, the reduction of input/output ratio, cultivated land area per capita and intensity of science and technology investment decreased carbon emission from cultivated land utilization.

Regional differences and the driving mechanism of relationships between rural household livelihood and ecosystem services:A case study in upstream watershed of Miyun Reservoir, China

WANG Feng-chun, ZHENG Hua, ZHANG Wei, WANG Hui, PENG Wen-jia

2021, 32(11):  3872-3882.  doi:10.13287/j.1001-9332.202111.013

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It is of great significance to link ecosystem and rural household welfare, with the aim to develop different strategies of rural household livelihood management and regional sustainable deve-lopment. Based on 1754 questionnaires of rural households in Beijing and Hebei within the upstream watershed of Miyun Reservoir, we analyzed the relationships between rural household welfare (defined by total income per rural household) and ecosystem reliance (expressed by an index of dependence on ecosystem services) by statistical and econometric methods. The relationships between rural household welfare and ecosystem reliance could be classified into four types, but with significant differences between Beijing and Hebei within the watershed. The rural household type of high welfare and low dependence had the highest proportion (33.9%) in Beijing. The average annual income and livelihood capitals of rural households in Beijing was significantly higher than that of Hebei Province. In Hebei Province, the dominant type was low welfare and high dependency (39.1%) that was the least popular one. The quality of human capital quality, social capital, and financial capital, which were crucial to human well-being, were significantly lower than that of Beijing households. The income of rural households in Hebei mainly depended on agricultural production (41.2%), which led to higher land utilization intensity. The natural resource and human capital quality significantly influenced rural household livelihood in Hebei. Maintaining suitable family size and age structure, improving education and skill levels, and strengthening payment for ecosystem services within low welfare households would be the key to form a good relationship between ecosystems and household welfare (the type of high welfare and low dependency).

Gross ecosystem product accounting of national park: Taking Hainan Tropical Rainforest National Park as an example

CHEN Zong-zhu, LEI Jin-rui, WU Ting-tian, CHEN De-xiang, ZHOU Zhang, LI Yuan-ling, HONG Xiao-jiang, YANG Zhong-yang, LI Yi-de

2021, 32(11):  3883-3892.  doi:10.13287/j.1001-9332.202111.010

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Hainan Tropical Rainforest National Park has the most representative and largest contiguous tropical rainforest in China, which has advantages in exploring the realization mechanism of ecological product value in national parks. Based on the basic framework of “The Technical Guideline on Gross Ecosystem Product (GEP)”, we constructed a GEP accounting system in line with the characteristics of tropical rain forest national park, and calculated the GEP of Hainan Tropical Rainforest National Park in 2019. The results showed that the GEP of Hainan Tropical Rainforest National Park in 2019 was 204.513 billion yuan, and the GEP per unit area was 0.046 billion yuan·km^-2. Among all the service types, the value of material services was 4.850 billion yuan, accounting for 2.4% of the total GEP in the national park. The ecosystem regulation service value was 168.891 billion yuan, accounting for 82.6%. The value of cultural services was 30.772 billion yuan, accounting for 15.0%. Among different ecosystem types, the unit area value of the tropical rain forest ecosystem represented by mountain rain forest, lowland rain forest, deciduous monsoon forest, and tropical cloud forest was much higher than that of plantation or other ecosystems, indicating the dominant role of tropical rain forest ecosystem in providing ecosystem services. In addition, based on the GEP accounting results of the national park, we put forward relevant suggestions for further exploring the realization path and realization mechanism of ecological product value.

Impacts of the returning farmland to forest (grassland)project on ecosystem services in the Weihe River Basin, China

XU Xing-chao, ZHAO Xue-yan, SONG Xiao-yu

2021, 32(11):  3893-3904.  doi:10.13287/j.1001-9332.202111.005

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As an important ecological compensation project initiated in China, the returning farmland to forest (grassland) project plays a key role in maintaining national ecological security. Systematical analysis for the impacts of the returning farmland to forest (grassland) project on ecosystem services would provide reference for consummating ecological compensation system. Taking the Weihe River Basin as an example, we analyzed the spatiotemporal changes of land use and ecosystem services since the implementation of the project based on land use data, meteorological data and other information. The InVEST model and geographically weighted regression were used to investigate the impacts of the project on the changes of ecosystem services, such as water conservation, soil conservation, carbon storage, and habitat quality. The results showed that since the implementation of the project, the coverage rate of forest and grassland had been fluctuating upwards, with an increase of 2704.49 km² of forest and grassland area. From 2000 to 2018, in the Weihe River Basin all showed a fluctuating upwards trends. Among those services, water conservation and carbon storage had large increases, while habitat quality and soil conservation had small increases. The project had effectively improved ecosystem services in the Weihe River Basin, but the impacting intensity on ecosystem services varied from one geographical unit to another.

Evaluation of the value of water retention service in the middle and upper reaches of Hunhe River based on SWAT Model

LIU Jing-hong, ZHENG Xiao, FAN Jun-mei, ZHAO Lan-lin

2021, 32(11):  3905-3912.  doi:10.13287/j.1001-9332.202111.007

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The upper and middle reaches of the Hunhe River, with forest coverage rate up to 68%, is an important water source protection area in Liaoning Province. Based on the SWAT model and shadow engineering method, we aimed to estimate the function and service value of water retention in the upper and middle Hunhe River basin from 2000 to 2019, to analyze the spatial heterogeneity, and to provide a scientific basis for the ecological compensation and ecological restoration of the region. Our results showed that the function and service value of water retention in the upper and middle reaches of the Hunhe increased first, and then decreased from 2000 to 2019. The mean annual amount and service value of water retention were 2.46 billion m³ and 15.04 billion yuan, respectively. The spatial distribution of water conservation service functions in the study area was uneven. The areas of high water retention service value were mainly distributed in Qingyuan County and Xinbin County, while the low-value areas were located in municipal districts of Shenyang City. The value of water retention services was obviously different among the ecosystems, with water retention capacity per unit area of forests being much higher than that of grassland, farmland, and cities.

Spatial-temporal evolution and responses of ecosystem service value under land use change in the Yellow River Basin:A case study of Shaanxi-Gansu-Ningxia region, Northwest China

SUN Meng-hua, NIU Wen-hao, ZHANG Bang-bang, GENG Qing-ling, YU Qiang

2021, 32(11):  3913-3922.  doi:10.13287/j.1001-9332.202111.016

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The Shaanxi-Gansu-Ningxia region is located in the upper and middle reaches of the Yellow River Basin in the Northwestern China, with vulnerable ecosystems. It is important to define the regional pattern of ecological security. The ecological and economic issues in this region deserved more investigation. By integrating land use data and the socio-economic data from 1995 to 2020, and using spatial analysis and geodetector, we investigated the spatial-temporal variations of land use and ecosystem service value (ESV) and the driving forces of spatial variations of ESV in the region. The results showed that the cultivated land and unused land in the study area were decreasing, whereas the construction land and forest land increased from 1995 to 2020. The overall ESV in the region showed a “decrease-increase” trend, which decreased by 1.2% from 1995 to 2000 and increased by 1.0% from 2000 to 2020. Grassland provided the largest ESV, contributing a prominent regulation on function and service. The results of geodetector indicated that NDVI was the dominant driving factor for the spatial variation, while temperature and per capita net income of farmers were the important factors. There were mainly 32 types of the index of driving forces with the spatial difference of ESV (q value) being more than 30%. The q value of NDVI and soil type was nearly 46%. The spatial variation of ESV in Shaanxi-Gansu-Ningxia region was affected by the interactive enhancement among natural, socio-economic factors, and policy factors.

Spatio-temporal pattern and driving forces of ecosystem services in coalfields of Shanxi Pro-vince, China

PAN Huan-huan, WU Shu-rong, JI Qian-qian, DU Zi-qiang, ZHANG Hong

2021, 32(11):  3923-3932.  doi:10.13287/j.1001-9332.202111.004

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Although coal has made a huge contribution to the development of the economy and socie-ty and its economic benefits have often attracted much attention, little research has focused on the ecosystem services of coalfields. Based on remote sensing data, meteorological data, and soil data in Shanxi coalfields during 1986, 2000, and 2015, we estimated soil conservation and water yield using the InVEST model, assessed the net primary productivity of vegetation using the CASA mo-del, and estimated sand fixation using the RWEQ model. Further, we simulated the spatial patterns of ecosystem services (ESs) using the k-means cluster analysis method and analyzed the influence factors of ESs using the Geodetector model in Shanxi coalfield areas. The results showed that soil conservation service, water yield service, and sand fixation service increased continuously. The high-value area of soil conservation service was mainly concentrated in the north of Hedong coalfield and the northeast of Qinshui coalfield, while the low-value area was distributed in the southwestern edge of Datong coalfield. The high-value area of water yield service was mainly concentrated in the northeast of Qinshui coalfield, while the low-value area was distributed in the northeast of Qinshui coalfield, Xishan coalfield and northwestern Qinshui coalfield. The high-value area for vegetation production service was mainly concentrated in the southeast of Qinshui coalfield, while the low-value area was distributed in Datong coalfield, Ningwu coalfield, Xishan coalfield, and northern Hedong coalfield. The distribution of low- and high-value areas of sand fixation service was unfixed. Ecosystem service bundles could be divided into four categories. The first category belonged to soil conservation service bundle, mainly distributed in the northern Ningwu coalfield, the northern Hedong coalfield, and the northern Qinshui coalfield. The second was water yield service bundle, mainly distributed in Huoxi coalfield and southern Qinshui coalfield. The third category belonged to vegetation production service bundle, mainly distributed in parts of Qinshui coalfield. The fourth category belonged to sand fixation service bundle, mainly distributed in the southern part of Hedong coalfield and Qinshui coalfield. Soil conservation service was greatly affected by temperature, digital elevation model (DEM), and industrial output value, with q values of 0.5, 0.3, and 0.2, respectively. Water yield service was greatly affected by precipitation, temperature, and DEM, with q values of 0.8, 0.3, and 0.2, respectively. The industrial output value, precipitation, and temperature q values of vegetation production service were 0.7, 0.6, and 0.2, respectively. The main influen-cing factors of sand fixation service were precipitation, temperature, and DEM, while the q values were 0.7, 0.3, and 0.3, respectively. The spatial distribution of coalfields ESs and the relationship between multiple ESs were closely related to natural and human factors. Therefore, maintaining the coordination relationship between natural-human factors and ecological services would be helpful to the management of the land reclamation, ecological reconstruction, and the sustainable development of coalfields ecosystem.

Ecosystem service value effects of the Three Gorges Reservoir Area land use transformation under the perspective of “production-living-ecological” space.

GOU Meng-meng, LIU Chang-fu, LI Le, XIAO Wen-fa, WANG Na, HU Jian-wen

2021, 32(11):  3933-3941.  doi:10.13287/j.1001-9332.202111.020

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In the context of rapid socio-economic development, eliciting “production-living-ecological” space (PLES) changes with corresponding ecosystem service benefits is critical for national land optimization and regional sustainability. Based on land use data obtained via remote sensing of 1980, 2000, 2018, and from a PLES perspective, we applied geo-information Tupu to depict land use transformations in the Three Gorges Reservoir Area (TGRA) from 1980 to 2018. The ecological/environmental effects of land use transformation were also explored based on the contribution value of ecosystem service. The results showed that both industrial production space and living space had increased from 1980 to 2018, while agricultural production space and ecological space displayed a decreasing trend. From the perspective of Tupu transformation, land use transformation pattern was relatively stable from 1980 to 2000, with the untransformed Tupu unit being dominant. However, with the complex land use transformation from 2000 to 2018, mutual transformation of agricultural production space and forest and grassland ecological space became dominant. Urbanization and industrialization were the main factors contributing to the decreased agricultural production space and ecological space. The ecosystem service value of TGRA initially decreased, then increased temporally, with greater change in the east than in the west. In the study period, ecological protection and restoration projects had positive effects on ecosystem service values, while rapid socio-economic development negatively impacted agricultural production space and ecological space. Combined with second ploughing, socio-economic development negatively impacted ecosystem ser-vice values.

Review on supply and demand of ecosystem service and the construction of systematic framework

YI Dan, XIAO Shan-cai, HAN Yi, OU Ming-hao

2021, 32(11):  3942-3952.  doi:10.13287/j.1001-9332.202111.011

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The supply and demand of ecosystem services are related to both natural ecosystems and socio-economic systems. The research on the supply and demand of ecosystem services would help enhance ecosystem management and achieve optimal allocation of resources, which ensures regional ecological security and sustainable development of socio-economic. Based on a systematic review of international literature, we comprehensively reviewed the conceptual connotation, evaluation metho-ds, and practical application of ecosystem service supply and demand. Although relatively abundant investigations have been conducted from the perspective of theoretical development, they are still scattered and lacking a coherent research framework. Based on expanding the scope of research on the supply and demand of ecosystem service, we constructued a research framework that referred to “qualitative-positioning-quantitative-policymaking” in accordance with the research pattern of “theory-methodology-practice”. To promote the theoretical and practical research on the supply and demand of ecosystem service, future research needs to focus on the spatial delivery mechanism, strengthen the research on quantitative methods, deepen the management and application practice, and establish the evaluation mechanism of ecosystem service supply and demand application.

Original Articles

Effects of different nitrification inhibitors on nitrification, maize yield, and nitrogen use efficiency in red soil

CUI Lei, LI Dong-po, WU Zhi-jie, XUE Yan, XIAO Fu-rong, ZHANG Ke, LI Yong-hua, ZHENG Ye

2021, 32(11):  3953-3960.  doi:10.13287/j.1001-9332.202111.022

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We examined the effects of nitrification inhibitors (NIs) on soil nitrification, maize yield and nitrogen use efficiency (NUE), aiming to screen out high efficiency stabilized ammonium chloride fertilizer in red soil. Nitrification inhibitors 2-chloro-6-trimethyl-pyridine (CP), 3, 4-dimethyl-pyrazolate phosphate (DMPP), and dicyandiamide (DCD) and their combinations were added into ammonium chloride (NH₄Cl) to make six stabilized nitrogen fertilizers. With blank (CK) and NH₄Cl (N) as the controls, we conducted a maize pot experiment with the same amount of nitrogen addition. The results showed that compared with the treatment of N, soil ammonium content in CP+DMPP and DMPP+DCD increased by 56%-62%, which was significantly higher than that in CP, DMPP, and DCD, while the apparent nitrification rate of red soil was significantly reduced by 33%-34%. All the six treatments with nitrification inhibitors and their combinations significantly improved biomass and nitrogen absorption efficiency of maize. Compared with the N treatment, the application of adding NIs alone was significantly higher than that of the treatments of NIs combinations, with an average of 1.3 times increase. DCD was the most efficient one in improving maize yield, nitrogen uptake, and nitrogen adsorption efficiency, which increased by 4.1, 6.3 and 4.4 times, respectively. Comprehensively, DCD performed the best in reducing cost and improving yield and nitrogen use efficiency in red soil.

Effects of different nitrogen application rates on soil water stable aggregates and N₂O emission in winter wheat field

CHEN Jin-sai, SUN Wei-hao, WANG Guang-shuai, Abubakar Sunusi Amin, GAO Yang

2021, 32(11):  3961-3968.  doi:10.13287/j.1001-9332.202111.024

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Excessive nitrogen application would deteriorate soil structure and increase greenhouse gas emission. We set up six treatments, i.e., N₀, N₁₂₀, N₁₈₀, N₂₄₀, N₃₀₀and N₃₆₀(nitrogen application rates of 0, 120, 180, 240, 300 and 360 kg·hm^-2, all straws returned into the field in situ) in the nitrogen fertilizer experimental site to investigate the effects of different nitrogen application rates on soil N₂O emission, soil water-filled porosity (WFPS), soil temperature, nitrate and ammonium contents, composition and stability of water stable aggregates in winter wheat filed in 2018-2020. The results showed that there was a significant positive correlation between soil N₂O emission and nitrogen application rate. There was no correlation between WFPS and nitrogen application rate. Soil temperature in the 0-10 cm layer decreased significantly with the increases of nitrogen application rates. There was a significant positive correlation between nitrate and ammonium contents and nitrogen application rate. With the increases of nitrogen application rates, the content of water stable aggregates with diameter >2 mm decreased, while that of water-stable aggregates with diameter <0.5 mm increased. The particle size of soil water-stable aggregates also decreased gradually. There was a significant negative correlation between nitrogen application rate with mean weight diameter (MWD) and geometric mean diameter, while no correlation with fractal dimension. The fitting equation between MWD and N₂O emission flux was y=3928.3e^-2.171x (R²=0.55, P<0.001), indicating that N₂O emission increased markedly as MWD decreasing. The increases in nitrogen application rate reduced soil temperature in the 0-10 cm layer, increased nitrate and ammonium contents, decreased the average particle size of soil water stable aggregates, and the stability of soil aggregates, and increased soil N₂O emission.

Effects of three fertilizer application patterns on wheat sowed by machinery in slope cropland of Western Hubei, China

TONG Han-wen, ZHU Zhan-wang, LIU Yi-ke, CHEN Ling, ZOU Juan, ZHANG Yu-qing, YANG Yong, GAO Chun-bao

2021, 32(11):  3969-3976.  doi:10.13287/j.1001-9332.202111.027

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Unscientific fertilization, unstable grain quality, and low profit are the key problems on wheat production in slope cropland of Western Hubei. To solve these problems, three optimized planting patterns (high nitrogen and potassium reduction, HNPR; medium nitrogen and potassium reductionm, MNPR; low nitrogen and potassium reduction, LNPR) were conducted during two consecutive years to assess their effects on wheat yield, quality, profit, and fertilizer use efficiency in Danjiangkou Reservoir area, a typical slope cropland region with wheat-maize rotation. The results showed that the application of chemical fertilizer significantly increased grain yield (GY) and wet gluten content (WGC) of wheat. Compared with the conventional planting pattern (CK), the partial factor productivity (PFP_K) and agricultural fertilizer use efficiency (AFUE_K) of potassium were significantly improved in the three optimized planting patterns. The dry matter amount (DMA), GY, and crude protein content (CPC) were the highest under HNPR, which increased by 9.4%, 19.4%, and 7.8% than CK, respectively. Such a result indicated that HNPR benefited wheat to exploit high yield potential. WGC and falling number (FN) were the highest under MNPR, and increased by 3.9%, and 9.3% than CK, respectively, which was suitable for high-efficiency production of medium-gluten wheat. PFP_N, AFUE_N, PFP_K, AFUE_K, and net profit were the highest under LNPR, which increased by 15.7%, 134.1%, 131.3%, 368.2%, and 37.3% than CK, respectively, while the CPC and WGC were decreased by 2.1% and 2.6% than CK, respectively, suggesting it was suitable for environment-friendly and simplified production of weak-gluten wheat production. Our results could provide a reference for wheat production in the slope cropland.

Effects of sowing modes on soil water dynamics and grain protein formation in dryland wheat

ZHAO Qing-ling, SUN Min, LIN Wen, REN Ai-xia, WANG Zhi-xin, ZHANG Rong-rong, LI Lei, GAO Zhi-qiang

2021, 32(11):  3977-3987.  doi:10.13287/j.1001-9332.202111.030

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In order to clarify the mechanisms underlying dryland wheat quality improvement through sowing technology, the effects of wide space sowing (WSS), furrow sowing (FS), and drill sowing (DS) on soil moisture dynamics and grain protein formation in dryland wheat field were studied in Wenxi, Shanxi Province in 2017-2018 (normal year) and 2018-2019 (dry year). The results showed that compared with the DS, FS significantly increased soil water storage in the 0-200 cm depth at anthesis stage (8.2%-18.7%), and increased the soil water storage in 0-60 cm layer during the two years, 60-120 cm layer in normal year, and 120-200 cm layer in dry year. WSS significantly increased soil water storage in 0-200 cm layer at anthesis stage in normal year (5.2%). Compared with DS, FS significantly increased water consumption of anthesis to mature stage, while WSS significantly increased water consumption from sowing to anthesis stage in dry year. Compared with DS, the glutamine synthetase (GS) activity of grains at 15-35 days after anthesis was significantly increased by FS and WSS, while the glutamate synthase (GOGAT) activity of flag leaves and grains at 5-35 days after anthesis was significantly increased by FS in the dry year. Compared with DS, FS significantly increased grain yield by 20.4%-44.8%, grain protein yield by 25%-49%, and increased grain albumin and globulin contents. WSS significantly increased grain yield by 9%-40%, and increased grain gliadin content. Under different sowing modes of dryland wheat, GS and GOGAT activities in flag leaves and grains after anthesis were significantly correlated with water consumption at anthesis to maturity stage. There were significant correlations between GS and GOGAT activities in flag leaves and grains and 0-120 cm soil layers in the normal water year, and between GS and GOGAT activities and 0-60 cm, 120-200 cm soil layers in the dry year. The contents of grain albumin, globulin and total protein were significantly correlated with soil water storage in 0-60 cm layer at anthesis stage, as well as soil water storage in 120-200 cm layer at anthesis stage in the dry year. In conclusion, FS was beneficial to increasing soil water storage at anthesis and water consumption after anthesis of dryland wheat, improving GS and GOGAT activities of flag leaf and grain, with positive consequences on yield and grain protein content. In addition, deep water storage was more conducive to quality improvement in the late growth period in the dry year.

Regulation effects of hydrogen sulfide on ascorbate-glutathione cycle in naked oat leaves under saline-alkali stress

LIU Jian-xin, LIU Rui-rui, JIA Hai-yan, LIU Xiu-li, BU Ting, LI Na

2021, 32(11):  3988-3996.  doi:10.13287/j.1001-9332.202111.023

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Saline-alkali stress is one of the common abiotic stresses for plants. Hydrogen sulfide (H₂S), as a gas signal, plays an important role in driving the responses of plants to saline-alkali stress. To explore the regulating effects of H₂S on the ascorbate (AsA)-glutathione (GSH) cycle in naked oat (Avena nude) under saline-alkali stress, we used sodium hydrogen sulfide (NaHS) as donor of exogenous H₂S and hydroxylamine (HA) as H₂S synthesis inhibitor to examine the effects of H₂S on plant growth, leaf reactive oxygen species, membrane lipid peroxidation, and antioxidants and key enzymes in the AsA-GSH cycle in “Dingyou 9” variety of naked oat under saline-alkali mixed stress. Results showed that spraying 50 μmol·L^-1 NaHS could alleviate the inhibition of 50 mmol·L^-1 saline-alkali mixed stress on the growth of naked oats, reduce the content of superoxide anions, H₂O₂, malondialdehyde, oxidized ascorbate (DHA), glutathione (GSH), and oxidized glutathione (GSSG) in leaves of naked oat under saline-alkali mixed stress, increase the ratio of AsA/DHA and GSH/GSSG, but did not affect the content of reduced ascorbic acid (AsA). Spraying NaHS significantly increased the activities of key enzymes, L-galactose dehydrogenase (GalDH) and L-galactono-1, 4-lactone dehydrogenase (GalLDH), for AsA synthesis pathways in naked oat leaves under salt-alkali mixed stress, as well as monodehydroascorbate reductase (MDHAR) in the AsA-GSH cycle, and decreased the activities of ascorbate peroxidase (APX) and dehydroascorbate reductase (DHAR), but did not affect the activities of ascorbate oxidase (AO) and glutathione reductase (GR). The addition of HA partially or completely relieved those aforementioned effects. Our results indicated that H₂S could increase the efficiency of AsA-GSH cycle by promoting the synthesis of AsA and enhancing the activity of MDHAR, and reduce the oxidative damage of saline-alkali stress to naked oats.

Carbon and nitrogen footprint of different peanut rotation systems in Hubei Province, China

PANG Ru-yue, WANG Ming-hui, KONG Jie, LI Ning, WANG Ming-lun, ZOU Xiao-xia

2021, 32(11):  3997-4003.  doi:10.13287/j.1001-9332.202111.025

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Clarifying carbon and nitrogen emissions of different peanut rotation planting system can provide an effective reference to achieve high yield, high efficiency, and low carbon and nitrogen emissions. Based on field surveys on agricultural inputs and field managements, we calculated the carbon footprint and nitrogen footprint of three planting modes (rape-peanut rotation, wheat-peanut rotation and peanut monoculture) in Huanggang, Hubei Province. The results showed that compared with wheat-peanut rotation, carbon emission per unit area of rape-peanut rotation decreased by 7.8%, carbon emission per unit net present value decreased by 36.9%, the nitrogen emission per unit area decreased by 12.5%, and nitrogen emission per unit net present value decreased by 41.9%. Compared with peanut monoculture, rape-peanut rotation reduced carbon and nitrogen emissions by 19.6% and 30.8%, respectively. The net income of rape-peanut rotation was 1.4 times as that of wheat-peanut rotation and 2.4 times as that of peanut monoculture. It is suggested that rape-peanut rotation could achieve the synergistic benefits of high yield and efficiency and low carbon and nitrogen emissions, which is conducive to the green, high quality, and high efficiency production of oil crops.

Effects of the coupling water and fertilizer on soil phosphorus components in alfalfa field in Eastern Inner Mongolia, China

ZHANG Ai-ming, XU Yu-mei, ZHU Jian-yu, YU Hong-xi, LIU Su-lan

2021, 32(11):  4004-4010.  doi:10.13287/j.1001-9332.202111.028

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Soil phosphorus (P) could be categorized into organic and inorganic forms, with diffe-rent capabilities of nutrient supply. Exploring soil P components through liquid ³¹P-NMR would provide an important theoretical basis for soil P nutrition regulation. This study addressed the characteristic of P in alfalfa (Medicago sativa) soil via the pot experiment. There were two scenarios of treatments with conventional and dry water combined with different P fertilizer levels (P₀-P₄: 0, 0.025, 0.05, 0.1, and 0.2 g P₂O₅·kg^-1soil). The characteristics of P components in alfalfa soil under water-fertilizer coupling conditions were measured by liquid ³¹P-NMR. Results showed that under different water and fertilizer treatments, soil inorganic P was mainly composed of inorganic orthophosphate, pyrophosphate and inorganic polyphosphate. Inorganic orthophosphate was the dominant component of inorganic P, which could be reduced by drought. High P application (P₄) could increase the contents of soil inorganic polyphosphates and inorganic pyrophosphates. Among the organic P components, monoester orthophosphate was dominant, the conversion and utilization of which in alfalfa soil were affected by drought. Overall, the rational management of water and fertilizer could effectively regulate the conversion and utilization of P nutrients in alfalfa soil in Eastern Inner Mongolia.

Effects of grass growing on soil fertility and productivity of orchards in China: A metaanalysis

GUO Xiao-rui, SONG Tao, DENG Li-juan, ZHANG Wei-feng, JIAO Xiao-Qiang

2021, 32(11):  4021-4028.  doi:10.13287/j.1001-9332.202111.021

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Planting grasses in orchards is important to maintain soil basic fertility, improve the soil ecological environment, and promote sustainable growth of fruit. However, the quantitative effects of grasses on nutrient content of orchard soil in China is unclear, as well as the mechanisms associated with higher fruit yield and quality in orchards. This meta-analysis included 62 literature published between 1990 and 2020 to quantify effects of soil depth, planting years of raw grasses, and raw grasses to the physical and chemical properties and fruit yield and quality of orchards, as well as to explore the impacts of grasses on the sustainable production of Chinese orchards. Between 1990 and 2020, compared with the non-grass orchards, the content of soil organic matter, alkali nitrogen and available phosphorus in orchard with grasses increased by 18%, 11%, and 27% respectively, and the soil bulk density was reduced by 20%. Orchard grass increased soil temperature by 23% when the temperature was below 10 ℃, and reduced soil temperature by about 8% when the temperature was above 10 ℃. Compared with annual grasses, perennial grasses (natural or artificial) significantly improved soil properties, fruit yield and quality. These findings indicated that long-term grass planting in orchards had far-reaching significance on sustainable production.

Spatiotemporal evolution characteristics of the late frost damage risk to shrubby tea trees in tea region, southwest China from 1971 to 2020

GAO Wen-bo, LIN Zheng-yu, WANG Ming-tian, HE Peng, CHEN Chun-yan, LIU Yuan-li, CAO Jie

2021, 32(11):  4029-4038.  doi:10.13287/j.1001-9332.202111.012

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Understanding the spatiotemporal evolution characteristics of the risk of late frost damage has scientific guiding significance for optimizing the regional agricultural production layout and varie-ty tuning. Based on the daily meteorological data of 65 weather stations in the southwest China tea region from 1971 to 2020, we analyzed variation characteristics of the last frost date (LFD), tea bud open date (BOD), and their relationships, constructed frost damage probability index and frost damage severity index of spring shoots of shrubby tea trees, and analyzed the spatiotemporal evolution chara-cteristics of the late frost damage risk of shrub tea trees in the southwest tea region. The results showed that both the BOD and LFD had a significant ahead of trend from 1971 to 2020 and the early rate of the LFD was relatively faster than that of the BOD in the southwest tea region. The number of days that the tea buds were exposed to late frost damage after germination showed an non-significant declining trend. The risk of late frost damage of shrubby tea trees in most parts of the southwest tea region showed a declining trend, but Guizhou tea planting region showed an insignificant increasing trend. The risk of late frost damage to shrubby tea trees was high in the western marginal mountai-nous areas of Sichuan tea region, and the junction of Guizhou and Yunnan tea region. The risk of late frost damage was at low level in Sichuan Basin, southern Yunnan tea region, and southern Guizhou tea region. The risk of late frost damage to shrubby tea trees in the northern and central-eastern parts of Yunnan tea region showed an obvious decreasing trend, but increased significantly in the central and eastern parts of Guizhou tea region.

Spatial-temporal differentiation and its influencing factors of agricultural eco-efficiency in China based on geographic detector

WANG Ya-qin, YAO Shun-bo, HOU Meng-yang, JIA Lei, LI Yuan-yuan, DENG Yuan-jie, ZHANG Xiao

2021, 32(11):  4039-4049.  doi:10.13287/j.1001-9332.202111.026

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Exploring the spatial-temporal variations of agricultural eco-efficiency (AEE) and its driving factors is of vital importance to achieve high-quality agro-ecological development in China. In this study, we used the super efficiency slack-based measure (SBM) model to measure the inter-provincial AEE based on the relevant panel data of 30 provinces/regions/cities in China from 2000 to 2018. Based on the time series analysis, spatial visualization, and trend surface analysis, the geographical detector model was further used to identify the core factors driving the spatial-temporal variations of AEE. The results showed that China’s AEE level maintained stable upward progress from 2000 to 2018, which was still at a low level with much room for improvement. The AEE in China exhibited a significant spatial-temporal variation, presenting higher levels in the eastern and western parts but lower in the central part. The spatial variation of AEE was influenced by many factors, including agricultural resource endowment, socioeconomic condition, and the natural ecological environment. There were obvious variations in the influence factors on the spatial-temporal variation of AEE. The interactions among factors would enhance the spatial variation of AEE. Therefore, due to the spatial-temporal variation of AEE, emphasis should be placed on its core driving factors as well as the inter-parts agricultural cooperation in order to achieve high-quality agro-ecological development in China.

Spatio-temporal variations of aridity index and its response to climate factors in Northwest China during 1989-2019

LIU Li-li, HAN Lei, HAN Yong-gui, GAO Yang, PENG Ling

2021, 32(11):  4050-4058.  doi:10.13287/j.1001-9332.202111.014

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Based on the meteorological data of 143 meteorological site, we calculated aridity index (AI) with the potential evaporation formulated by FAO-56 Penman-Monteith and precipitation in Northwest China during 1989-2019. Mann-Kendall trend analysis, wavelet analysis and partial differential equation were used to examine the AI change trend, variation cycle, and contribution rate of main climate impact factors to AI. The results showed that there was a non-significant decreasing trend of AI in Northwest China on the whole, a significant decreasing trend of AI in Qinghai, and a non-significant increasing trend of AI in Xinjiang during 1989-2019. There was an abrupt change of AI in the study area in 2010. There was a primary 17-year periodicity in the change of AI in Northwest China. The spatial distribution of AI was shown as a larger AI in the middle of Northwest China and a smaller AI in the Southeast and Northwest in Northwest China. The tendency rates of AI were -1.27, -1.17·(10 a)^-1, -0.41, -0.49, -1.77 and -2.73·(10 a)^-1 in Northwest China, Gansu, Ningxia, Shanxi, Qinghai, and Xinjiang, respectively. The possibility of drought risk was higher in Xiaozaohuo, Korla, Aksu, and Turpan region. Precipitation and actual water vapor pressure were the dominant factors of AI changes in Gansu, Ningxia, Qinghai, and Shaanxi. But the potential evapotranspiration, solar radiation, and average temperature were the main climate factors for AI changes in Xinjiang.

Variations of high temperature from 1961 to 2019 in Liaoning Province, China

LI Zhuo-qun, LIU Xing-cai

2021, 32(11):  4059-4067.  doi:10.13287/j.1001-9332.202111.038

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Better understanding of the changes in high-temperature would be helpful for improving the monitoring of hot extremes and mitigating their impacts towards a sustainable regional development. Based on the data of daily maximum temperature, relative humidity, and wind speed from 23 meteorological stations in Liaoning Province in summer (June to August) during 1961 to 2019, we analyzed the variations of daily maximum temperature (Tx), daily maximum apparent temperature (AT), and heat wave events (3 consecutive days ≥35 ℃). The effects of meteorological variables on daily maximum apparent temperature were examined by the grey relational analysis method. The results showed that the average Tx (AT) of all stations was 26.19 (27.35), 28.29 (31.13), and 28.14 (31.08) ℃, respectively, while the average trends in Tx (AT) was 0.17 (0.38), 0.20 (0.35), and 0.17 (0.28) ℃·(10 a)^-1, respectively, in June, July and August during 1961 to 2019. The average AT and its trends in each month were larger than the Tx. From June to August, there was significant negative correlation between Tx (AT) and its climate tendency rate, indicating that the range of warming in the area with low Tx and AT was larger than that in the area with high values. We should therefore pay more attention to the protection against high temperature in the low value area of Tx and AT in summer. From June to August, the average number of hot days with AT ≥ 35 ℃ was 0.85 d·a^-1, with an average increase rate of 0.20 d·(10 a)^-1. Hot days were signifi-cantly more in June and July than in August. The area with more hot days was mainly located in the west of Liaoning, and the area with less hot days was mainly located in the south and coastal areas. The number of heat wave events was 0.071 times per year, which was large in western Liaoning. There was no high temperature heat wave event in the southern and coastal areas of Liaoning. The correlation analysis showed that the AT in June was strongly associated with relative humidity, while AT in July and August had the closest relationship with Tx. Therefore, the importance of relative humidity on the monitoring and forecasting of high temperature and hot weather cannot be ignored.

Assessment of marine environmental health of Yantai offshore based on the new “dual-core” framework

WANG Qi-dong, SONG Jin-ming, YUAN Hua-mao, PENG Chen

2021, 32(11):  4068-4076.  doi:10.13287/j.1001-9332.202111.037

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The health of marine ecological environment is a key factor restricting the development of marine economy. It is important to scientifically and systematically assess the overall ecological health of coastal marine. Based on the newly constructed “dual-core” assessment framework, which takes the state of marine ecosystem as the inner-core and the human socio-economic index as the outer-core, the health status of Yantai coastal marine environment was comprehensively assessed with the survey data from 2008 to 2016. The results showed that the inner-core elements for Yantai coastal area were mainly rated as “excellent” or “good” level. Generally, the sediment quality was the best, while water environment quality was slightly poor. The status of biological community was the core factor determining final rating. For the outer-core assessment, Yantai coastal areas scored 0.98, based on the output value of marine industrial and area of marine reserves. The final “dual-core” assessment result for Yantai offshore area was “excellent/good + 0.98”, which indicated that the healthy status of ecological environment of Yantai offshore area was still good, in spite of high degree of development and utilization, but some areas had begun to deteriorate, which needed to be paid special attention in the further developing of marine industry. Our results following the “dual core” framework could provide guidance for the management and decision-making related marine resources development and environmental protection, and is of great significance to realize sustainable utilization of marine resources and environment.

Variations of soil organic nitrogen fractions during degradation succession in the Gahai Wetland, Northwest China

TANG Yan-mei, MA Wei-wei, LI Guang, XU Guo-rong, ZHANG Yue, PAN Ping-xin, SONG Liang-cui, LONG Yong-chun, CHANG Wen-hua

2021, 32(11):  4077-4084.  doi:10.13287/j.1001-9332.202111.035

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This study amined to explore the variation of soil organic nitrogen components across the degradation succession of Gahai Wetland. By combining field sampling and laboratory analysis, the content and distribution characteristics of soil organic nitrogen components, i.e., hydrolytic total nitrogen (HTN), unidentified acidolytic nitrogen (HUN), ammonium nitrogen (AMN), amino acid nitrogen (AAN) and acid amino sugar nitrogen (ASN) were investigated in undegraded (UD), lightly degraded (LD), moderately degraded (MD), and heavy degraded (HD) Gahai Wetland. The results showed that, in the 0-10 cm layer, the contents of total nitrogen (TN), HUN, AMN, and AAN in LD decreased by 17.3%, 19.4%, 8.6%, and -5.6%, 28.0%, 19.4%, 17.1% and 0 in MD, and 35.8%, 28.8%, 28.6% and 55.6% in HD, respectively. In the 10-20 cm layer, the four components decreased by 4.0%, 10.3%, 2.9% and 9.1% in LD, 21.0%, 18.3%, -2.9% and -9.1% in MD, and 9.9%, 38.9%, 21.2% and 51.4% in HD, respectively. The corresponding contents in the 20-40 cm soil layer did not change. The proportion of soil acid-hydrolyzed nitrogen components to TN under four degradation stages was HUN (25.9%-32.5%) > AMN (6.7%-11.1%) > AAN (4.8%-11.1%) > ASN (1.2%-4.4%). Soil water content was the main driving factor for variations of soil organic nitrogen components as indicated by the results of redundancy analysis. Degradation of the Gahai Wetland significantly reduced the content of soil TN and the components of acid-hydrolyzed nitrogen in 0-10 cm soil layer, and weakened the nitrogen “sink” function of soils. The AAN and ASN were sensitive to wetland degradation.

Responses of soil dissolved organic matter to nitrogen addition and its correlation with bacterial communities in Pinus taiwanensis forest

YUAN Xiao-chun, CUI Ju-yan, LIN Kai-miao, ZHOU Jia-cong, ZENG Quan-xin, XIE Huan, LIU Yuan-yuan, XU Jian-guo, CHEN Yue-min

2021, 32(11):  4085-4094.  doi:10.13287/j.1001-9332.202111.031

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We explored the responses of the quantity and quality of soil dissolved organic matter (DOM) to short-term nitrogen (N) addition across an addition gradient (0, 40, and 80 kg N·hm^-2·a^-1) and their correlation with bacterial communities in Pinus taiwanensis forest in the Daiyunshan Nature Reserve, Fujian, China. Soil DOM and bacterial community composition were measured using three-dimensional fluorescence and parallel factor analyses combined with high-throughput sequencing. The results showed that compared with the control, N-addition reduced the content of dissolved organic carbon (DOC) and the humification index (HIX) of DOM in the 0-10 and 10-20 cm soil layers, with significant reduction under the high N addition (80 kg N·hm^-2·a^-1). Results of parallel factor analysis further showed that the relative content of humus-like components (C1, C2) in DOM decreased following N addition. Short-term N addition reduced the relative abundance of copiotrophic bacteria (Proteobacteria and Acidimicrobiia), but increased the relative abundance of oligotrophic bacteria (Spartobacteria). The relative abundance of copiotrophic bacteria were positively correlated with the HIX and refractory humus-like components (C1, C2) and negatively correlated with the relatively easily decomposed fulvic acid-like component (C3), whereas the pattern was opposite for oligotrophic bacteria. It is indicated that bacterial communities with different life strategies had obvious preference for difficult- and easy-to-decompose components in DOM under N addition treatments. We speculated that the transformation of soil microbial life strategies under the background of increasing N deposition might alter DOM components.

Seasonal variations of arbuscular mycorrhizal fungal community in greenhouse soil under different rotation systems

LIU Lei, XU Meng, ZHANG Guo-yin, WANG Ling, SUN Shi-you, RU Shu-hua, XIAO Guang-min, GAO Jing, LI Pin, MA Li-min

2021, 32(11):  4095-4106.  doi:10.13287/j.1001-9332.202111.033

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Soil samples were collected at the fallow period, flowering stage, and fruiting stage of tomato under tomato-melon (TM) and tomato-bean (TB) systems. Illumina MiSeq high-throughput pyrosequencing was performed to analyze the differences in AM fungal community between the two rotation systems. We further analyzed the key factors driving the changes in AM fungal diversity and community composition. Results showed that rotation with legume significantly altered the α-diversity of AM fungi. Shannon diversity and Pielou evenness of AM fungi under the TB system were 24.9% and 24.0% lower than that under TM system, respectively. Compared to the fallow period, richness, Shannon diversity, and phylogenetic diversity of AM fungi at the tomato flowering and fruiting stages decreased significantly by 55.6%-67.5%, 49.6%-51.5%, and 21.4%-23.7%, respectively. Rotation with legume (the TB system) promoted the relative abundance of Glomus in all the three sampling times, but reduced the relative abundance of Paraglomus and Archaeospora at the flowering and fruiting stages. Claroideoglomus was more abundant in soils under the TM system than that under the TB system at the fallow period, but the pattern was the opposite at the flowering stage. Ambispora, Diversispora, and Scutellospora were detected only in soil under the TB system. Results of permutational multivariate analysis of variance (PERMANOVA) and non-metric multidimensional scaling (NMDS) analysis showed that both rotation system and growing stage significantly affected the structure of AM fungal community. Soil moisture, pH, and Olsen-P were the predominant factors controlling the variations in the diversity and composition of AM fungal community. Results of structural equation modeling (SEM) further indicated that rotation system and growing stage affected the variations in AM fungal diversity and community structure indirectly via changing soil pH.

Differences of bacterial communities in different biological soil crusts around thermal power plant and their influencing factors

FAN Jin, LI Shi-yao, DU Ya-xian, WANG Rong-rong, YU Hai-long, HUANG Ju-ying

2021, 32(11):  4107-4118.  doi:10.13287/j.1001-9332.202111.036

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To understand the effects of heavy metal pollution derived from atmospheric dust fall on bacterial community structure under different types of biological soil crusts near mining area, we measured the diversity, community composition, and relative abundance of bacteria communities in three different developmental stages of biological soil crusts (BSCs), including algae (ZB), mixed (HB), and moss (TB) crusts, and control (CK, bare soil) around a typical thermal power plant in Ningdong Energy Industrial Base, using the high-throughput sequencing technique. Environmental factors affecting the bacterial community structure were further investigated. The results showed that there were significant differences in physicochemical properties and heavy metal contents among different BSCs. The BSCs were heavily polluted due to the enrichment of heavy metals from atmospheric dust fall. Among the top ten dominant bacterial phyla, Gemmatimonadetes and Cyanobacteria were significantly distinct among different BSCs. Bacterial α diversity decreased in an order of CK>TB>HB>ZB. The NMDS ordination plots indicated that there were significant differences in the bacteria community composition of the three kinds of BSCs and the CK. The correlation analysis showed that the succession of BSCs significantly affected bacterial community composition in BSCs. Bacterial diversity and composition were closely related to pH, nutrients, and heavy metal contents. The relative abundance of Actinomycetes and Chloroflexi was positively correlated with pH, but negatively correlated with total N, total P, and the contents of heavy metal Pb, Zn, Cd. Results of the redundancy analysis showed that organic carbon, pH, total N, and total P were the major soil factors affecting bacterial α diversity, relative abundance of some dominant phyla, whereas heavy metal contents of Zn, Cd, Pb were the major heavy metals affecting structure of bacterial community which inhibited or stimulated the abundance and diversity of bacterial communities. We concluded that pH, heavy metals, and nutrients were the key factors affecting soil bacteria community composition. The succession of BSCs would improve their physicochemical properties and significantly impacted bacterial community composition. Long term heavy metals enrichment would affect bacterial diversity and community composition of BSCs.

C/N ratio-induced changes in predominant bacteria affected carbon/nitrogen losses and humus synthesis in composting

ZHANG Wen-ming, WANG Xu-jie, YIN Si-qian, CHANG Xin-yi, HAI Long

2021, 32(11):  4119-4128.  doi:10.13287/j.1001-9332.202111.041

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To explore how C/N ratio-induced changes in the predominant microbial succession in the composting microbiota affect C and N losses, and promote the formation of humic substance, a composting experiment was conducted with C/N ratio of 20:1, 25:1 and 30:1. Results showed that N and C losses under 30:1 and 25:1 treatments were 33.5%, 18.9% and 23.6%, 10.8% lower than those of the treatment of 20:1, respectively. Redundancy analysis results suggested that higher C/N ratio promoted nitrogen fixing bacteria, while inhibited the proliferation of denitrifying bacte-ria, resulting in reduction of the losses of C and N during composting. Higher C/N ratio significantly promoted the growth and reproduction of lignocellulose degrading bacteria for the degradation of fulvic acid and humin to form more humic acid, and improved the polymerization of humic substance. Therefore, C/N ratio could significantly affect key microbes during composting, with consequences on the process and quality. It could be an effective way to regulate C and N losses, promote HS formation, and eventually improve the compost quality and reduce the secondary environmental pollution during composting.

Removal of sulfonamide and enrofloxacin from water by periphyton under different nitrogen and phosphorus concentrations

GU Xue-wei, LIN Yi, LU Di, ZHONG Jing-yan, XU Jing, ZHAO Yue-tong, WANG Li-qing, ZHANG Wei

2021, 32(11):  4129-4138.  doi:10.13287/j.1001-9332.202111.039

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Periphyton is an emerging biological technology for water purification. However, the removal effect of periphyton on antibiotic contaminants in water under different nitrogen and phosphorus levels remains largely unknown. In this study, four nitrogen and phosphorus levels [N-P (mg·L^-1): 2-0.2, 5-0.5, 8-0.8, 11-1.1] were set up to grow periphyton outdoors in plastic crates. The growth, photosynthe-tic activity, species composition, and removal of sulfonamide and enrofloxacin were simulated at a medium scale. The results showed that biomass of the surrounding organisms increased with the increases of culture time. In contrast, the photosynthetic pigment content and photosynthetic activity showed a “single peak” pattern, which first decreased and then increased, indicating that algae in the biofilm would be stressed by antibioics but could quickly adapt and recover vitality. In addition, different nitrogen and phosphorus concentrations resulted in differences in community composition. With the increases of nutrient concentrations, species richness of periphyton algae gradually decreased. The relative abundance of Dictyosphaerium and Chlorella in each treatment was relatively high. Results of 16S rRNA high-throughput sequencing showed that the flora of Rhizobiaceae, Frankiales, and Moraxellaceae was significantly enriched in groups 2-0.2. The relative abundance of Chitinophagaceae in all the four treatments was the highest. The removal rate of sulfonamide in all treatments was higher than 50%, while the removal rate of enrofloxacin in all treatments was more than 90%. The removal rate of sulfonamide in (N-P) 2-0.2 mg·L^-1 group (65.8%) was significantly higher than that in other groups, but with no significant difference in the removal rate of enrofloxacin among all treatments. The results showed that periphyton had an excellent ability to remove sulfonamide and enrofloxacin in a wide range of N-P levels. The removal rate of soluble nitrogen in water was not different in each treatment group, and the removal effect of soluble phosphorus was substantial. Our results provided primary data for the ecological removal of sulfonamide and enrofloxacin in water, which gave a new idea for the development of environmental removal technology for new antibiotic pollutants in water.

Defensive responses of Populus deltoides cl. Beikang to mechanical injury and Anoplophora glabripennis infection

ZHANG Kuo, WEI Jian-rong, LI Zhen, YANG Bing-jun, WANG Jiao-xue, SU Zhi

2021, 32(11):  4139-4146.  doi:10.13287/j.1001-9332.202111.040

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Poplar, as the main tree species of the protection forest in the “Three-North” area of China, has been seriously damaged by Anoplophora glabripennis since 1970s. Populus deltoides cl. Beikang (PDB) shows strong resistance to A. glabripennis, but the biochemical mechanism of resistance is unclear. In this study, the quantities of secondary metabolites and the activity of defense enzymes in bark and xylem from undamaged, mechanically damaged, and A. glabripennis infected PDB were detected by kit and HPLC techniques. The results showed different responses of PDB to mechanical damage and A. glabripennis infection. Secondary metabolites, the quantities of D-(-)-salicin and aspen significantly increased after mechanical injury compared with the undamaged materials, but the quantities of quercitrin decreased. The quantities of D-(-)-salicin and quercitrin significantly increased after insect infection, but without difference for aspen. There was no significant difference for the total quantities of phenolics between insect infected and uninjured xylem, but both were significantly lower than that in the mechanical damaged xylem. The quantities of aspen and flax lignans in the insect infected xylem was higher than those in the mechanical damaged xylem and uninjured xylem, while the quantities of total phenolic glycosides in the mechanical damaged xylem and the insect infected xylem were both significantly higher than that in the uninjured xylem. PAL activity was not different between mechanical damage and insect infection, whereas both were significantly higher than that of uninjured bark. SOD activity in mechanical damaged bark was significantly higher than that in insect infected bark, which were both higher than that of uninjured bark. POD activity had no significant difference between mechanical damage and insect infected xylem, but were higher than that of uninjured xylem. Compared with the uninjured PDB tree, the secondary metabolites and defense enzymes in the mechanical damaged and A. glabripennis infected PDB increased in varied degrees, which would be related with the resistance of PDB to external injury.

Reviews

Research progress on the pollution, adsorption, and transport of perfluorooctanoic acid (PFOA ) at the sediment-water interface

LYU Xue-yan, SUN Yuan-yuan, YU Zhi-guo, WU Ji-chun

2021, 32(11):  4147-4155.  doi:10.13287/j.1001-9332.202111.034

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Perfluorooctanoic acid (PFOA) is an important perfluorinated surfactant, which has received great attention as an emerging pollutant, due to its persistence, high toxicity, and bioaccumulation. Sediment is an important environmental reservoir for PFOA, while polluted sediment can serve as a long-term contamination source causing pollution to overlying surface water and surrounding groundwater. Here, the source, pollution level, adsorption and transport of PFOA at the sediment-water interface were systematically reviewed. Industrial discharge was the major release for PFOA entering surface water and sediment. PFOA was generally at ng·L^-1 and ng·g^-1 levels in global surface water and sediment. More serious pollution was found in some parts of China. Sediment composition, hadrochemical condition, natural organic matter, and surfactants could strongly affect PFOA adsorption in sediment, though the controlling mechanisms were controversial. Research on PFOA transport in sediment had just been started with limited progress. There is a great gap in understanding the mechanisms underlying PFOA transport in sediment, which should be strengthened in the future.

Reproductive traits of common Euphausids in the south of Antarctic Polar Front

ZHU Guo-ping, WEI Bei-bei

2021, 32(11):  4156-4164.  doi:10.13287/j.1001-9332.202111.029

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Euphausiids (krill) is a basic component of the Southern Ocean ecosystem, with a key role in the Antarctic marine food web. Krill may be the largest unexploited animal protein source for human beings. There is a great deal of interest in exploiting krill resources. Our understanding is poor about the biology of those species, particularly the reproductive traits of krill species, expect for Euphausia superba. Here, we reviewed related studies and revealed that different species of krill undergo similar physiological steps during ovary development. There are regional variations in the size of krill oocytes. The sexual maturity stages of female krill could be classified by observing the thelycum and ovarian morphology. There are latitudinal variations in spawning periods among species and regional variations within species. Most observations showed that krill samples are dominated by females. Future research should be conducted, i.e., (1) strengthening the study on the reproductive traits of krill, besides Euphausia superba, and further to explore the effects of seasonal and regional reproductive traits on the distribution of krill around Antarctica, (2) focusing on experimental biology in order to clarify the mechanism of spawning times of krill and further to calculate accurately the fecundity to evaluate the impacts of exploiting krill resource.