Adoption of Multiple Sustainable Manure Treatment Technologies by Pig Farmers in Rural China: A Case Study of Poyang Lake Region

Cai, Jingyuan; Zhang, Liguo; Tang, Jing; Pan, Dan

doi:10.3390/su11226458

Cited by 10 publications

(4 citation statements)

References 52 publications

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“…Poyang Lake is an essential hydrological regulation area in the middle reaches of the Yangtze River, with a variety of land cover types and abundant natural resources in the lake area [20,21]. Therefore, monitoring the surface water body area of Poyang Lake is of great ecological and hydrological importance in determining the inundation time and annual inundation of the marshland [22,23].…”

Section: Study Areamentioning

confidence: 99%

A Long-Term Analysis of Spatiotemporal Change and Driving Factors on Poyang Lake during 1987-2019

Zhu¹,

Xing²,

Dong-yang³

et al. 2021

Pol. J. Environ. Stud.

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As the largest freshwater Lake in China, Poyang Lake plays an important role in regulating the water level of Yangtze River and maintaining the ecological balance of surrounding areas. Therefore, this study utilizes Google Earth Engine (GEE) geospatial technology to acquire 124 remotely sensed images to explore the spatial and temporal changes of the four seasons of Poyang Lake from 1987 to 2019. The official statistics from relevant cities are used to quantitatively reveal the main driving factors of water body changes in Poyang Lake. Temporally, the water body area of Poyang Lake shows an obvious downward trend in general. Spatially, the water body area of Poyang Lake shows a gradual decrease from the center of the lake to the surroundings. In 1987-1998, the water body area of Poyang Lake showed an increasing trend, with an increase of about 727.90km 2 . From 1998 to 2006, the water body area of Poyang Lake mainly showed a decreasing trend, with a decrease of 401.58km 2 . The water body area of Poyang Lake increased slowly during 2006-2017. Anthropogenic factors and natural factors have influenced the changes in water body area of Poyang Lake to a certain extent. This study can provide valuable supporting data for the comprehensive environmental management and flood hazard monitoring of Poyang Lake.

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Section: Study Areamentioning

confidence: 99%

A Long-Term Analysis of Spatiotemporal Change and Driving Factors on Poyang Lake during 1987-2019

Zhu¹,

Xing²,

Dong-yang³

et al. 2021

Pol. J. Environ. Stud.

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“…Indeed, pig manure is widely used for its high fertilizer value [26], but several studies point out that the variability in nutrient content makes it difficult to valorize pig manure as it is [27,28]. Nevertheless, in these cases, the medium-high values accorded to environmental criteria may be due to some misunderstanding in the environmental effect of storage without processing, as previous studies have recorded that farmers that are aware of the environmental risk posed by pig manure tend to adopt some kind of processing technology [25,29]. Conversely, the best attitude towards environmentally-friendly treatment systems is expected and found on the farms adopting "Anaerobic Digestion in Continuous-flow Stirred-Tank Reactor (Ad-Cstr)", "Biological Nitrogen Removal in Sequencing Batch Reactor (BNR-SBR)", or "screw press separation".…”

Section: % Of Farm Managersmentioning

confidence: 99%

Insights about the Choice of Pig Manure Processing System in Three Italian Regions: Piemonte, Friuli Venezia Giulia, and Veneto

et al. 2021

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The adoption of best available technologies (BATs) by the livestock sector has a fundamental role in developing a sustainable agricultural system. Italy is the EU member with the highest percentage of manure treated, but processing facilities are regionally scattered and the adoption of BATs is far from being scaled-up. The adoption is a matter of multicriteria decision-making and full knowledge on how to foster the transition is still lacking. The present research aims to deepen the available knowledge by analysing the perception of 40 pig farm managers about decision criteria behind the adopted manure management system across three different Italian regions. We assessed farms in Piemonte, Friuli Venezia Giulia, and Veneto. All farms have adequate storage facilities, but 82.5% adopt no processing technique. The two most important decision criteria are economic, i.e., the minimization of treatment and spreading costs. The emerging picture allows us to conclude that BAT adoption is still adopted as a mere consequence of legal obligation. Economic constraints prevail as there is a lack of information and uncertainty. Clear perspectives and recognition of virtuous behavior prevent farmers from making decisions based on environmental or social criteria. Therefore, effective policies oriented to fill these gaps are needed to accelerate the transition towards sustainability.

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“…In addition, diverse manure processing technologies have been developed to modify the physical, chemical and/or biological properties of manure and hence reduce its environmental impact or facilitate its transport. However, despite the wide range of manure processing techniques available (Flotats et al, 2011) and the potential that some of these have to reduce some of the environmental impacts caused by manure (Hou et al, 2017;Zhang et al, 2019), these technologies have not been widely adopted in global livestock chains (Cai et al, 2019;China Ministry of Agriculture, 2016;Foged et al, 2011). High investment and operational costs with low returns, logistical complexity for implementation at the farm level, low social acceptance and environmental concerns due to the emission of malodorous volatile organic compounds and greenhouse gas (GHG) emissions, have constrained the large scale adoption of these technologies (Cai et al, 2019;Chadwick et al, 2015;Martinez et al, 2009).…”

Section: Introductionmentioning

confidence: 99%

“…However, despite the wide range of manure processing techniques available (Flotats et al, 2011) and the potential that some of these have to reduce some of the environmental impacts caused by manure (Hou et al, 2017;Zhang et al, 2019), these technologies have not been widely adopted in global livestock chains (Cai et al, 2019;China Ministry of Agriculture, 2016;Foged et al, 2011). High investment and operational costs with low returns, logistical complexity for implementation at the farm level, low social acceptance and environmental concerns due to the emission of malodorous volatile organic compounds and greenhouse gas (GHG) emissions, have constrained the large scale adoption of these technologies (Cai et al, 2019;Chadwick et al, 2015;Martinez et al, 2009). Although policies to reduce animal numbers in livestock-dense regions would directly reduce the environmental and health problems caused by surplus manure, 4 70 Nutrient flows during black soldier fly larvae rearing on pig manure simultaneously new short-term approaches for surplus manure management are needed to guarantee the transition towards more sustainable food systems.…”

Section: Introductionmentioning

confidence: 99%

Farmed insects for sustainable food systems

Parodi

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Chapter 2 The potential of future foods for sustainable and healthy diets Chapter 3 Nutrient flows during black soldier fly larvae rearing on agri-food residues Chapter 4 Nutrient flows during black soldier fly larvae rearing on pig manure Chapter 5 Incorporation of manure ammonia-nitrogen into black soldier fly larvae Chapter 6 Black soldier fly larvae dietary preferences Chapter 7 Assessing the global warming potential of using black soldier fly larvae for food, feed and manure management Chapter 8 Principles for the responsible use of farmed insects as livestock feed Chapter

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Adoption of Multiple Sustainable Manure Treatment Technologies by Pig Farmers in Rural China: A Case Study of Poyang Lake Region

Cited by 10 publications

References 52 publications

A Long-Term Analysis of Spatiotemporal Change and Driving Factors on Poyang Lake during 1987-2019

A Long-Term Analysis of Spatiotemporal Change and Driving Factors on Poyang Lake during 1987-2019

Insights about the Choice of Pig Manure Processing System in Three Italian Regions: Piemonte, Friuli Venezia Giulia, and Veneto

Farmed insects for sustainable food systems

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