Emergy analysis on different planting patterns of typical watersheds in Loess Plateau.

doi:10.13287/j.1001-9332.201605.018

Abstract

Abstract: To objectively evaluate and compare the stability and sustainability of different planting patterns of typical watersheds in Loess Plateau of China after the Grain for Green Project, this paper used the emergy analysis method to quantify the emergy inputs and outputs of three watersheds with different planting patterns, i.e., both grains and fruit trees (Gaoxigou watershed), mainly grains (Wuliwan watershed) and mainly fruit trees (Miaozuigou watershed). In addition, an emergy analysis system was established to evaluate the suitability of the three patterns from the perspectives of natural resources pressure as well as social and economic development levels. More than 75% of the total emergy inputs of all the three watersheds were purchased, and nonrenewable emergy inputs had a much larger contribution than renewable emergy inputs, indicating the characteristic of low emergy self-sufficient ratio and considerable high environmental loading ratio. The pattern of planting grains had high emergy inputs but low emergy outputs, while the patterns of planting fruit trees and planting both had high emergy inputs and outputs. The energy densities of all three patterns reached two times of the average of agricultural systems in China. Especially, the net emergy of planting grains pattern was the lowest while that of planting both grains and fruit trees was the highest. The environmental sustainability index (ESI) of planting grains pattern was less than 1 and both emergy and ESI were much lower than national averages. The ESI of planting both grains and fruit trees pattern was the highest. In summary, comparison of the three patterns showed that planting both grains and fruit trees had better sustainability and high stability and the emergy production efficiency was high. Thus, it was suggested to change the agricultural development from watershed based units to multi-industry integrated mode.

Key words: watershed, planting system, emergy analysis, Loess Plateau.

DENG Jian, ZHAO Fa-zhu, HAN Xin-hui, FENG Yong-zhong ,YANG Gai-he. Emergy analysis on different planting patterns of typical watersheds in Loess Plateau.[J]. Chinese Journal of Applied Ecology, 2016, 27(5): 1576-1584.

References

[1] Zheng F-L (郑粉莉), Tang K-L (唐克丽), Zhang K-L (张科利), et al. Relationship of eco-environmental change and natural erosion and manmade accelerated erosion. Acta Ecologica Sinica (生态学报), 1995, 15(3): 251-259 (in Chinese)
[2] Song N-P (宋乃平), Wang L (王磊), Liu Y-H (刘艳华), et al. The impacts of conversion of cropland to forest and grassland on land use in the Loess Hilly area. Resources Science (资源科学), 2006, 28(4): 52-57 (in Chinese)
[3] Wang Z-B (王征兵), Guo B (郭斌), Yao S-B (姚顺波), et al. Study frontier of socio-economic impacts of SLCP and short review. Agricultural Economics and Management (农业经济与管理), 2012(5): 60-69 (in Chinese)
[4] Yao R (姚蓉), Yan J-P (延军平), Liu X-L (刘小莉), et al. Evaluation on effects of agricultural structure adjustment in the process of Grain for Green Project in Yan’an City. Bulletin of Soil and Water Conservation (水土保持通报), 2008, 28(6): 155-157 (in Chinese)
[5] Peng H, Cheng G, Xu Z, et al. Social, economic, and ecological impacts of the ‘Grain for Green’ project in China: A preliminary case in Zhangye, Northwest China. Journal of Environmental Management, 2007, 85: 774-784
[6] Lin Y (林颖), Zhang Y-L (张雅丽). Research on the mechanism of rural labor transfer in the background of sloping land conversion program. Forestry Economics (林业经济), 2013(7): 98-103 (in Chinese)
[7] Xu JY, Chen LD, Lu YH, et al. Sustainability evaluation of the Grain for Green Project: From local people’s responses to ecological effectiveness in Wolong Nature Reserve. Environmental Management, 2007, 40: 113-122
[8] Liu J (刘佳), Wang J-J (王继军). Changes of ecological footprint after Cropland Conversion to Forest Land Project of Zhifanggou watershed in Loess Hilly and Gully Region. Bulletin of Soil and Water Conservation (水土保持通报), 2008, 28(5): 161-165 (in Chinese)
[9] Meng Q-S (孟全省), Tan P (谭鹏), Jin A-X (靳爱仙). On the development of follow-up industry in the Grain for Green. Journal of Northwest Forestry University (西北林学院学报), 2005, 20(4): 181-185 (in Chinese)
[10] Zhang X (张晓), Gao H-Q (高海清), Guo D-M (郭东敏), et al. Factor assessment on sustainable development of converting farmland into forest and grassland in Northern Shannxi Province by using analytic hierarchy process. Bulletin of Soil And Water Conservation (水土保持通报), 2010, 30(5): 147-151 (in Chinese)
[11] Odum HT, Brown MT, Brandt-Williams SL. Handbook of Emergy Evaluation. Gainesville, FL: Center for Environmental Policy, University of Florida, 2000
[12] Ulgiati S, Odum Ht, Bastianoni S. Emergy use, environmental loading and sustainability an emergy analysis of Italy. Ecological Modelling, 1994, 73: 215-268
[13] Zhao G-S (赵桂慎), Wang Y-C (王一超), Tang X-W (唐晓伟), et al. Evaluation of sustainability for intensive farmland ecosystem based on emergy ecological footprint. Transactions of the Chinese Society of Agricultural Engineering (农业工程学报), 2014, 30(18): 159-167 (in Chinese)
[14] Xi Y-G (席运官), Qin P (钦佩). Emergy value evaluation on rice-duck organic farming mode. Chinese Journal of Applied Ecology (应用生态学报), 2006, 17(2): 237-242 (in Chinese)
[15] Odum HT. Trans. Lan S-F (蓝胜芳). Energy, Environment and Public Policy: A Guide to Analysis of Systems. Beijing: East Press, 1992 (in Chinese)
[16] Gan Z-T (甘卓亭), Ye J (叶佳), Ma Y-L (马亚兰), et al. Emergy analysis on eco-economic systems of Shaanxi Province. Journal of Arid Land Resources and Environment (干旱区资源与环境), 2010, 24(8): 11-14 (in Chinese)
[17] Zhao S (赵晟), Li Z-Z (李自珍). Study on emergy analysis of Gansu ecological-economic systems. Acta Botanica Boreali-Occidentalia Sinica (西北植物学报), 2004, 24(3): 464-470 (in Chinese)
[18] Sun F (孙凡), Yang S (杨松), Zuo S-J (左首军), et al. Input and output study of agricultural ecoeconomic system of China based on the theory of emergy analysis. Journal of Southwest University (Natural Science)(西南大学学报: 自然科学版), 2010, 32(10): 135-141 (in Chinese)
[19] Chen GQ, Jiang MM, Chen B, et al. Emergy analysis of Chinese agriculture. Agriculture, Ecosystems & Environment, 2006, 115: 161-173
[20] Hu X-D (胡小东), Wang L-C (王龙昌), Xue L-L (薛兰兰), et al. Study on sustainable development of agro-ecosystem in China’s Western region based on EMA and GIS. Journal of Southwest University (Natural Science) (西南大学学报: 自然科学版), 2010, 32(2): 7-12 (in Chinese)
[21] Dong X-B (董孝斌), Gao W-S (高旺盛), Yan M-C (严茂超). Emergy analysis of agroecosystem productivity of typical valley in Loess Hilly-gully Region of the Loess Plateau: A case study in Zhifanggou Valley of Ansai County. Acta Geographica Sinica (地理学报), 2004, 59(2): 223-229 (in Chinese)
[22] Zhou P (周萍), Liu G-B (刘国彬), Hou X-L (侯喜禄). Energy analysis of agricultural eco-economic system before and after grain for green in typical watershed in loess hilly region of China. Transactions of the Chinese Society of Agricultural Engineering (农业工程学报), 2009, 25(6): 266-273 (in Chinese)
[23] Wang H-H (王红红), Wu F-Q (吴发启), Li R-B (李荣标). Energy analysis of apple fruit industry ecosystem in the Loess Plateau. Journal of Northwest A&F University (Natural Science) (西北农林科技大学学报: 自然科学版), 2008, 36(7): 64-70 (in Chinese)
[24] Li C-F (李春发), Cao Y-Y (曹莹莹), Yang J-C (杨建超), et al. Scenario analysis on sustainable development of Sino Singapore Tianjin Eco-city based on emergy and system dynamics. Chinese Journal of Applied Ecology (应用生态学报), 2015, 26(8): 2455-2465 (in Chinese)
[25] Lu H-F (陆宏芳), Lan S-F (蓝盛芳), Chen F-P (陈飞鹏), et al. Advances in energy analysis of agro-ecosystems. Chinese Journal of Applied Ecology (应用生态学报), 2004, 15(1): 159-162 (in Chinese)
[26] Lan S-F (蓝盛芳), Qin P (钦佩), Lu H-F (陆宏芳). Emergy Analysis of Ecosystems. Beijing: Chemical Industry Press, 2002 (in Chinese)
[27] Jiang MM, Chen B, Zhou JB, et al. Emergy account for biomass resource exploitation by agriculture in China. Energy Policy, 2007, 35: 4704-4719
[28] Zhang Y-H (张耀辉). Emergy analysis method of agro-ecosystem. Chinese Journal of Eco-Agriculture (中国生态农业学报), 2004, 12(3): 181-183 (in Chinese)
[29] Zhang W-D (张无敌), Liu S-Q (刘士清), Zhou B (周斌), et al. Organic waste resources and their biogas potentiality in ruralareas of China. Natural Resources (资源科学), 1997, 19(1): 67-71 (in Chinese)
[30] Niu R-F (牛若峰), Liu T-F (刘天福). Manual of Agriculture Technology and Economy. Beijing: China Agriculture Press, 1984 (in Chinese)
[31] Zhao FZ, Chen SF, Han XH, et al. Policy-guided nationwide ecological recovery: Soil carbon sequestration changes associated with the grain-to-green program in China. Soil Science, 2013, 178: 550-555
[32] Tong X-G (佟小刚), Han X-H (韩新辉), Wu F-Q (吴发启), et al. Variance analysis of soil carbon sequestration under three typical forest lands converted from farmland in a Loess Hilly Area. Acta Ecologica Sinica (生态学报), 2012, 32(20): 6396-6403 (in Chinese)
[33] Hau JL, Bakshi BR. Promise and problems of emergy analysis. Ecological Modelling, 2004, 178: 215-225