Details
| Original language | English |
|---|---|
| Article number | 107425 |
| Journal | Agricultural water management |
| Volume | 263 |
| Publication status | Published - 1 Apr 2022 |
| Externally published | Yes |
Abstract
The Yellow River Basin (YRB) is an important agricultural production area with diverse of Agri-ecological functional units in northwest China. Through data collection and Nutrient Flows in Food chain, Environment and Resources Use (NUFER) and NUFER-AGD model, present study aimed to explore the spatial and temporal flows of nitrogen (N) in the cropping and animal farming systems of the YRB from 1999 to 2019; and to evaluate the developing status and restrictive factors for the green development in this area. The total N input of the area increased from 2.10 × 107 t in 1999–3.66 × 107 t in 2019, mainly originated from fertilizer (53%, 2019) and fodder (39%, 2019) input. The total N output increased from 8.27 × 106 t in 1999–13.77 × 106 t in 2019, and the main pathway of N loss was ammonia volatilization, accounting for 53.5% in 1999 and 53.1% in 2019 of the total losses. Based on the N input and loss per unit area in 2019, the upper reaches of the YRB were low-input and high-emission; the middle reaches were high-input and high-emission; the lower reaches were high-input and low-emission. Fifty variables of five dimensions, society development, economy growth, agricultural production, resources input and ecological environment were selected to assess whole YRB for the green development index, the results show that 36% variables reached the green level, and the parameters of the agricultural production and ecological environment among all variables were the key factors of limiting green development of the YRB area. These founding are of great importance to provide scientific support for sustainable agricultural development and ecological protection at regional scale.
Keywords
- Agricultural Green Index, Nitrogen balance, NUFER model, Nutrient cycle
ASJC Scopus subject areas
- Agricultural and Biological Sciences(all)
- Agronomy and Crop Science
- Environmental Science(all)
- Water Science and Technology
- Agricultural and Biological Sciences(all)
- Soil Science
- Earth and Planetary Sciences(all)
- Earth-Surface Processes
Sustainable Development Goals
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In: Agricultural water management, Vol. 263, 107425, 01.04.2022.
Research output: Contribution to journal › Article › Research › peer review
}
TY - JOUR
T1 - The spatial and temporal distribution of nitrogen flow in the agricultural system and green development assessment of the Yellow River Basin
AU - Liu, Jiaxin
AU - Li, Yan
AU - Zheng, Yiming
AU - Tong, Sijie
AU - Zhang, Xuechen
AU - Zhao, Ying
AU - Zheng, Wei
AU - Zhai, Bingnian
AU - Wang, Zhaohui
AU - Zhang, Xucheng
AU - Li, Ziyan
AU - Zamanian, Kazem
N1 - Funding information: This work was supported by the National Natural Science Foundation of China ( 42177342 ), National Key Research and Development Program ( SQ2021YFD1900163 ), Key S&T Special Projects of Shaanxi Province ( 2020zdzx03-02-01 ), Fundamental Research Fund for the Central Universities ( 2452021087 ), and Foundation of Key Laboratory of High-Water Utilization on Dryland of Gansu Province ( HNSJJ-2021 ), Base Promotion Project of Northwest A&F University ( Z2220220025 ), China Agriculture Research System of MOF and MARA ( CARS-27 ).
PY - 2022/4/1
Y1 - 2022/4/1
N2 - The Yellow River Basin (YRB) is an important agricultural production area with diverse of Agri-ecological functional units in northwest China. Through data collection and Nutrient Flows in Food chain, Environment and Resources Use (NUFER) and NUFER-AGD model, present study aimed to explore the spatial and temporal flows of nitrogen (N) in the cropping and animal farming systems of the YRB from 1999 to 2019; and to evaluate the developing status and restrictive factors for the green development in this area. The total N input of the area increased from 2.10 × 107 t in 1999–3.66 × 107 t in 2019, mainly originated from fertilizer (53%, 2019) and fodder (39%, 2019) input. The total N output increased from 8.27 × 106 t in 1999–13.77 × 106 t in 2019, and the main pathway of N loss was ammonia volatilization, accounting for 53.5% in 1999 and 53.1% in 2019 of the total losses. Based on the N input and loss per unit area in 2019, the upper reaches of the YRB were low-input and high-emission; the middle reaches were high-input and high-emission; the lower reaches were high-input and low-emission. Fifty variables of five dimensions, society development, economy growth, agricultural production, resources input and ecological environment were selected to assess whole YRB for the green development index, the results show that 36% variables reached the green level, and the parameters of the agricultural production and ecological environment among all variables were the key factors of limiting green development of the YRB area. These founding are of great importance to provide scientific support for sustainable agricultural development and ecological protection at regional scale.
AB - The Yellow River Basin (YRB) is an important agricultural production area with diverse of Agri-ecological functional units in northwest China. Through data collection and Nutrient Flows in Food chain, Environment and Resources Use (NUFER) and NUFER-AGD model, present study aimed to explore the spatial and temporal flows of nitrogen (N) in the cropping and animal farming systems of the YRB from 1999 to 2019; and to evaluate the developing status and restrictive factors for the green development in this area. The total N input of the area increased from 2.10 × 107 t in 1999–3.66 × 107 t in 2019, mainly originated from fertilizer (53%, 2019) and fodder (39%, 2019) input. The total N output increased from 8.27 × 106 t in 1999–13.77 × 106 t in 2019, and the main pathway of N loss was ammonia volatilization, accounting for 53.5% in 1999 and 53.1% in 2019 of the total losses. Based on the N input and loss per unit area in 2019, the upper reaches of the YRB were low-input and high-emission; the middle reaches were high-input and high-emission; the lower reaches were high-input and low-emission. Fifty variables of five dimensions, society development, economy growth, agricultural production, resources input and ecological environment were selected to assess whole YRB for the green development index, the results show that 36% variables reached the green level, and the parameters of the agricultural production and ecological environment among all variables were the key factors of limiting green development of the YRB area. These founding are of great importance to provide scientific support for sustainable agricultural development and ecological protection at regional scale.
KW - Agricultural Green Index
KW - Nitrogen balance
KW - NUFER model
KW - Nutrient cycle
UR - http://www.scopus.com/inward/record.url?scp=85122211724&partnerID=8YFLogxK
U2 - 10.1016/j.agwat.2021.107425
DO - 10.1016/j.agwat.2021.107425
M3 - Article
AN - SCOPUS:85122211724
VL - 263
JO - Agricultural water management
JF - Agricultural water management
SN - 0378-3774
M1 - 107425
ER -