Integrated Emergy and Economic Evaluation of Huzhou Mulberry-Dyke and Fish-Pond Systems

Integrated Emergy and Economic Evaluation of Huzhou Mulberry-Dyke and Fish-Pond Systems

The Huzhou mulberry-dyke and fish-pond system (HMFS) is a compound structure of agriculture with interaction among several subsystems, and it is an effective example of a circular economy by exogenous input and waste reduction to maintain a harmonious relationship between humans and nature. As incre...

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Main Authors: Shaohui Liu, Qingwen Min, Wenjun Jiao, Chuanjiang Liu, Jianzhong Yin
Format: Article
Language:English
Published: MDPI AG 2018-10-01
Series:Sustainability
Subjects:
Huzhou mulberry-dyke and fish-pond systems
existing models
subsystems
emergy analysis
input and output
Online Access:https://www.mdpi.com/2071-1050/10/11/3860
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spelling doaj-5c6b7b297d3440338485908dd4cb18e82020-11-25T02:11:07ZengMDPI AGSustainability2071-10502018-10-011011386010.3390/su10113860su10113860Integrated Emergy and Economic Evaluation of Huzhou Mulberry-Dyke and Fish-Pond SystemsShaohui Liu0Qingwen Min1Wenjun Jiao2Chuanjiang Liu3Jianzhong Yin4Center for Economic Development Research, Wuhan University, 299, Bayi Road, Wuchang District, Wuhan 430072, ChinaInstitute of Geographic Sciences and Natural Resources Research, Chinese Academy of Sciences, 11A, Datun Road, Chaoyang District, Beijing 100101, ChinaInstitute of Geographic Sciences and Natural Resources Research, Chinese Academy of Sciences, 11A, Datun Road, Chaoyang District, Beijing 100101, ChinaCenter for Economic Development Research, Wuhan University, 299, Bayi Road, Wuchang District, Wuhan 430072, ChinaResearch Center for Sustainable Development of Shandong Province, Shandong Normal University, 88, Wenhua East Road, Lixia District, Jinan 250014, ChinaThe Huzhou mulberry-dyke and fish-pond system (HMFS) is a compound structure of agriculture with interaction among several subsystems, and it is an effective example of a circular economy by exogenous input and waste reduction to maintain a harmonious relationship between humans and nature. As increases in rural urbanization and transition of peasants occur, the traditional systems remain in a constant state of change, along with different kinds of adaptation models. In this study, two main existing models are examined by field investigation and extensive literature analysis. Emergy theory and methods are adopted to make a further quantitative analysis from emergy structure and indices synthetically and systemically. In this process, the models of HMFS are split into several subsystems, including mulberry dyke, fish pond, rape dyke, and silkworm, in terms of a modularization approach. The proportion of combinations among different subsystems is calculated by the average production level of local peasants. The empirical results of emergy analysis indicate that the two existent patterns of HMFS are themselves superior in terms of environmental capacity and commercial efficiency. The mulberry⁻silkworm⁻fish model possesses more sustainable characteristics than the rape⁻fish model by the mass flow and energy flux. In addition, the rape⁻fish model may obtain considerably better economic returns by more inorganic resources, and thus achieve higher economic benefits. Therefore, the rape⁻fish model may be an evolutionary model to make directions for further research and protection, while other adaptive units are introduced to form multiple systems.https://www.mdpi.com/2071-1050/10/11/3860Huzhou mulberry-dyke and fish-pond systemsexisting modelssubsystemsemergy analysisinput and output
collection DOAJ
language English
format Article
sources DOAJ
author Shaohui Liu
Qingwen Min
Wenjun Jiao
Chuanjiang Liu
Jianzhong Yin
spellingShingle Shaohui Liu
Qingwen Min
Wenjun Jiao
Chuanjiang Liu
Jianzhong Yin
Integrated Emergy and Economic Evaluation of Huzhou Mulberry-Dyke and Fish-Pond Systems
Sustainability
Huzhou mulberry-dyke and fish-pond systems
existing models
subsystems
emergy analysis
input and output
author_facet Shaohui Liu
Qingwen Min
Wenjun Jiao
Chuanjiang Liu
Jianzhong Yin
author_sort Shaohui Liu
title Integrated Emergy and Economic Evaluation of Huzhou Mulberry-Dyke and Fish-Pond Systems
title_short Integrated Emergy and Economic Evaluation of Huzhou Mulberry-Dyke and Fish-Pond Systems
title_full Integrated Emergy and Economic Evaluation of Huzhou Mulberry-Dyke and Fish-Pond Systems
title_fullStr Integrated Emergy and Economic Evaluation of Huzhou Mulberry-Dyke and Fish-Pond Systems
title_full_unstemmed Integrated Emergy and Economic Evaluation of Huzhou Mulberry-Dyke and Fish-Pond Systems
title_sort integrated emergy and economic evaluation of huzhou mulberry-dyke and fish-pond systems
publisher MDPI AG
series Sustainability
issn 2071-1050
publishDate 2018-10-01
description The Huzhou mulberry-dyke and fish-pond system (HMFS) is a compound structure of agriculture with interaction among several subsystems, and it is an effective example of a circular economy by exogenous input and waste reduction to maintain a harmonious relationship between humans and nature. As increases in rural urbanization and transition of peasants occur, the traditional systems remain in a constant state of change, along with different kinds of adaptation models. In this study, two main existing models are examined by field investigation and extensive literature analysis. Emergy theory and methods are adopted to make a further quantitative analysis from emergy structure and indices synthetically and systemically. In this process, the models of HMFS are split into several subsystems, including mulberry dyke, fish pond, rape dyke, and silkworm, in terms of a modularization approach. The proportion of combinations among different subsystems is calculated by the average production level of local peasants. The empirical results of emergy analysis indicate that the two existent patterns of HMFS are themselves superior in terms of environmental capacity and commercial efficiency. The mulberry⁻silkworm⁻fish model possesses more sustainable characteristics than the rape⁻fish model by the mass flow and energy flux. In addition, the rape⁻fish model may obtain considerably better economic returns by more inorganic resources, and thus achieve higher economic benefits. Therefore, the rape⁻fish model may be an evolutionary model to make directions for further research and protection, while other adaptive units are introduced to form multiple systems.
topic Huzhou mulberry-dyke and fish-pond systems
existing models
subsystems
emergy analysis
input and output
url https://www.mdpi.com/2071-1050/10/11/3860
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