Does environmental regulation in the form of resource agglomeration decrease agricultural carbon emissions? Quasi-natural experimental on high-standard farmland construction policy

Li, Fulin; Han, Jiliang; Zhu, Yanhui

doi:10.1016/j.jclepro.2023.138342

Cited by 33 publications

(6 citation statements)

References 69 publications

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“…Specifically, for the planting industry, agricultural carbon emissions are determined using six key indicators, namely agricultural fertilizers, pesticides, agricultural films, agricultural diesel, tillage, and irrigation. These indicators are calculated using a coefficient method [ 35 , 49 ]. The specific estimation formula is formula (4) :

where AC represents the total agricultural carbon emissions,

represents the carbon emissions of various carbon sources,

represents the amount of carbon emission indicators, and

represents the carbon emission coefficient.…”

Section: Research Methodology and Materialsmentioning

confidence: 99%

Impact of agricultural digitalization on carbon emission intensity of planting industry: Evidence from China

Wang,

Chen,

Zhu

et al. 2024

Heliyon

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where AC represents the total agricultural carbon emissions,

represents the carbon emissions of various carbon sources,

represents the amount of carbon emission indicators, and

represents the carbon emission coefficient.…”

Section: Research Methodology and Materialsmentioning

confidence: 99%

Impact of agricultural digitalization on carbon emission intensity of planting industry: Evidence from China

Wang,

Chen,

Zhu

et al. 2024

Heliyon

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“…Infrastructure construction measures, such as field road development and farmland electricity distribution, streamline operational efficiency in agricultural endeavors, thereby curtailing energy expenditure and associated carbon emissions [56,57]. Finally, scientific and technological support measures, exemplified by cultivated land quality assessment [58] and digital agricultural infrastructure [59], afford precision farming capabilities, optimizing resource allocation and concomitantly diminishing the carbon footprint per unit of agricultural output. This comprehensive approach underscores the interconnectedness between agricultural practices and carbon dynamics within the environment, underscoring the imperative of embracing multifaceted strategies to concurrently enhance productivity and environmental sustainability in agriculture whilst addressing the exigencies posed by climate change [60].…”

Section: Optimization Processmentioning

confidence: 99%

The Impact of High-Standard Farmland Construction Policies on the Carbon Emissions from Agricultural Land Use (CEALU)

Liu,

Lin

2024

Land

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Agricultural activities are the second largest source of greenhouse gas emissions, and carbon emissions from agricultural land use (CEALU) have become a hot issue across the world. Although there are some studies on the impact of high-standard farmland construction policies on carbon emissions, they focus on quantitative analysis and do not give sufficient consideration to the relationship between HSFC and CEALU. Therefore, in this study, by relying on provincial panel data of China for the period 2005–2017, the effect of the high-standard basic farmland construction policy on carbon emissions from agricultural land use per unit area and its regional differences were quantitatively analyzed using the difference-in-difference (DID) model. The results showed that: (1) China’s CEALU per unit area presented a fluctuating upward change, but the growth rate slowed down during the period 2005–2017, from 392.58 kg/ha to 457.72 kg/ha, with an average annual growth rate of 1.31%; (2) the high-standard farmland construction (HSFC) policy led a significant carbon emission reduction effect in agricultural land use and reduced the CEALU per unit area by 10.80% on average. With the promotion of this policy, its carbon emission reduction effect in agricultural land use presented an overall increasing change; (3) the carbon emission reduction effect of the high-standard farmland construction policy in agricultural land use was significant in central China, but non-significant in eastern China and western China.

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“…Reducing carbon emissions is therefore a key strategy for mitigating climate change and promoting sustainable development. Policymakers should therefore deepen environmental regulatory reform by adapting it to local conditions through promoting policy innovation and the optimization of the carbon reduction scheme [47,48]. 2.4.5.…”

Section: Sdg 13 (Climate Action)mentioning

confidence: 99%

Can Europe Reach Its Environmental Sustainability Targets by 2030? A Critical Mid-Term Assessment of the Implementation of the 2030 Agenda

Firoiu,

Ionescu,

Cismaș

et al. 2023

Sustainability

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The Sustainable Development Goals (SDGs) serve as a pivotal framework globally, addressing environmental concerns. The 2023 Agenda emphasizes the interconnectedness of environmental issues with socio-economic development, recognizing their fundamental role in human prosperity. This research critically evaluates the mid-term progress of EU Member States in achieving the 2030 Agenda’s environmental targets. Using Eurostat data for SDGs 6, 11, 12, 13, 14, and 15, we’ve analyzed trends via the AAA (Holt–Winters) exponential smoothing algorithm. Results highlight progress from 2015–2022 but signal concerns for 2030 targets in several Member States. These findings urge local, national, and EU stakeholders to intensify efforts toward environmental sustainability goals. Corrections are imperative, given the predicted negative trends, emphasizing the need for immediate action to rectify trajectories before it is too late.

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Does environmental regulation in the form of resource agglomeration decrease agricultural carbon emissions? Quasi-natural experimental on high-standard farmland construction policy

Cited by 33 publications

References 69 publications

Impact of agricultural digitalization on carbon emission intensity of planting industry: Evidence from China

Impact of agricultural digitalization on carbon emission intensity of planting industry: Evidence from China

The Impact of High-Standard Farmland Construction Policies on the Carbon Emissions from Agricultural Land Use (CEALU)

Can Europe Reach Its Environmental Sustainability Targets by 2030? A Critical Mid-Term Assessment of the Implementation of the 2030 Agenda

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