Abstract
Emergy analysis was performed to evaluate the sustainability of three rice farming systems (rice mono-cropping, rice-fish and rice-duck farming systems) in the Jiangsu province. The results showed that the three systems exhibit unique characteristics on each component. The emergy of rice seeding and the labour input were the most important costs, at 57.18 and 18.20 sej/ha/season, respectively, for the rice mono-cropping system. In the rice-fish and rice-duck systems, the feed input played a more important role, corresponding to values of 63.70 and 79.20 sej/ha/season, respectively. The machinery input was 45.21 sej/ha/season for the rice-fish system due to the construction of fish ponds and ditches. The rice-duck system exhibited lower environmental loading and a higher sustainability index than the rice mono-cropping and rice-fish systems, respectively. The ratios of the economic input to output were 0.41, 0.61 and 0.41 for the rice mono-cropping, rice-fish and rice-duck systems, respectively. The net profit of the rice-duck system was $3264.2 per hectare, which was nearly 40% higher than those of the other systems. Based on the results showing the highest economic efficiency and value on the sustainability index, the rice-duck system may be the optimal rice agriculture system from both ecological and economic perspectives.
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References
Ahmed N, Garnett ST (2011) Integrated rice-fish farming in Bangladesh: meeting the challenges of food security. Food Security 3:81–92. doi:10.1007/s12571-011-0113-8
Awasthi M, Dos DN, Singh RK (2006) Qualitative algal analysis from the fish-gut: tested in the rice fish cropping system. International journal of Environmental Science and Technology 3:89–94. doi:10.1007/BF03325911
Campbell DE, Brandt-Williams SL, Meisch ME (2005) Environmental accounting using emergy: evaluation of the state of West Virginia. United States Environmental Protection Agency. Washington, DC
Frei M, Becker K (2005) Integrated rice-fish culture: coupled production saves resources. Natural Resources Forum 29:135–143. doi:10.1111/j.1477-8947.2005.00122.x
Guo Y (2001) Rice-fish systems in China. In: Integrated agriculture-aquaculture. FAO Fisheries Technical paper, No 407. Food and Agriculture Organization (FAO), Rome
Jiang WL (2005) An introduction of water resources management. Chemical Industry Press, Beijing
Lan SF, Qin P (2001) Emergy analysis of ecosystems. Chinese Journal of Applied Ecology 12:129–131
Lan SF, Qin P, Lu HF (2002) The emergy analysis of ecological economic system. Chemical Industry Press, Beijing
Lefroy E, Rydberg T (2003) Emergyevaluation of three cropping systems in southwestern Australia. Ecological Modelling 161:195–211. doi:10.1016/S0304-3800(02)00341-1
Li CF, Cao CG, Wang JP, Zhan M, Pan SG (2009) Dynamics of soil soluble organic N in rice-duck and rice-fish ecosystems. Acta Ecologica Sinica 29:2541–2550
Lu J, Li X (2006) Review of rice–fish-farming systems in China — one of the globally important ingenious agricultural heritage systems (GIAHS). Aquaculture 260:106–113. doi:10.1016/j.aquaculture.2006.05.059
Lu H, Bai Y, Ren H, Campbell DE (2010) Integrated emergy, energy and economic evaluation of rice and vegetable production systems in alluvial paddy fields: implications for agricultural policy in China. Journal of Environmental Management 91:2727–2735. doi:10.1016/j.jenvman.2010.07.025
Ma F, Eneji A, Liu J (2014) Understanding relationships among agro-ecosystem services based on emergy analysis in Luancheng County, North China. Sustainability 6:8700–8719. doi:10.3390/su6128700
Martin JF, Diemont SAW, Powell E, Stanton M, Levy-Tacher S (2006) Emergy evaluation of the performance and sustainability of three agricultural systems with different scales and management. Agriculture, Ecosystems and Environment 115:128–140. doi:10.1016/j.agee.2005.12.016
Odum HT (1996) Environmental accounting: emergy and environmental decision making. John Wiley & Sons Inc, New York
Pang M, Zhang L, Ulgiati S, Wang C (2015) Ecological impacts of small hydropower in China: insights from an emergy analysis of a case plant. Energy Policy 76:112–122. doi:10.1016/j.enpol.2014.10.009
Vigne M, Peyraud JL, Lecomte P, Corson MS, Wilfart A (2013) Emergy evaluation of contrasting dairy systems at multiple levels. Journal of Environmental Management 129:44–53. doi:10.1016/j.jenvman.2013.05.015
Wang SB, Wang KL, Huang GQ (2011) A study on ecosystem service value of paddy fields in multiple cropping systems in southern hilly areas of China taking Yujiang County as an example. Acta Agriculturae Universitatis Jiangxiensis 33:636–642
Wang R, Cheng T, Hu L (2015) Effect of wide–narrow row arrangement and plant density on yield and radiation use efficiency of mechanized direct-seeded canola in Central China. Field Crops Research 172:42–52. doi:10.1016/j.fcr.2014.12.005
Wang X, Wu X, Yan P, Gao W, Chen Y, Sui P (2016) Integrated analysis on economic and environmental consequences of livestock husbandry on different scale in China. Journal of Cleaner Production 119:1–12. doi:10.1016/j.jclepro.2016.01.084
Wilfart A, Prudhomme J, Blancheton JP, Aubin J (2013) LCA and emergy accounting of aquaculture systems: towards ecological intensification. Journal of Environmental Management 121:96–109. doi:10.1016/j.jenvman.2013.01.031
Xi YG, Qin P (2009) Emergy evaluation of organic rice-duck mutualism system. Ecological Engineering 35:1677–1683. doi:10.1016/j.ecoleng.2007.11.006
Xie J, Hu L, Tang J, Wu X, Li N, Yuan Y, Yang H, Zhang J, Luo S, Chen X (2011) Ecological mechanisms underlying the sustainability of the agricultural heritage rice-fish coculture system. Proceedings of the National Academy of Sciences of the United States of America 108:E1381–E1387. doi:10.1073/pnas.1111043108
Zeng H, Wu J, Lin L (2008) Using 137Cs tracer technique to investigate soil erosion distribution and total erosion amount in Taihu Lake catchment. Marine Geology and Quaternary Geology 28:79–85
Zhang JE, Zhao MY, Chen J, Huang ZX (2005) Effects of integrated rice-duck farming system on the growth of rice. Ecologic Science 2:117–119
Zhang LX, Ulgiati S, Yang ZF, Chen B (2011) Emergy evaluation and economic analysis of three wetland fish farming systems in Nansi Lake area, China. Journal of Environmental Management 92:683–694. doi:10.1016/j.jenvman.2010.10.005
Zhang LX, Song B, Chen B (2012) Emergy-based analysis of four farming systems: insight into agricultural diversification in rural China. Journal of Cleaner Production 28:33–44. doi:10.1016/j.jclepro.2011.10.042
Zhang LX, Hu QH, Wang CB (2013) Emergy evaluation of environmental sustainability of poultry farming that produces products with organic claims on the outskirts of mega-cities in China. Ecological Engineering 54:128–135. doi:10.1016/j.ecoleng.2013.01.030
Acknowledgements
We thank Krysta Black-Mazumdar PhD from AJE for checking the written English in this manuscript.
Funding
This work was supported by the National Key Technology Support Program (2014BAD14B05), the Tianjin Natural Science Foundation (13JCYBJC25400), the Basic Research Fund for Central Public Research Institutes (2015-szjj-lj-08) and the Ministry of Agriculture 948 project (2015-Z7).
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Li, J., Lai, X., Liu, H. et al. Emergy Evaluation of three Rice Wetland Farming Systems in the Taihu Lake Catchment of China. Wetlands 38, 1121–1132 (2018). https://doi.org/10.1007/s13157-017-0880-x
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DOI: https://doi.org/10.1007/s13157-017-0880-x