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封面
市场调查报告书
商品编码
1702395

全球低碳农业市场 - 2025-2032

Global Low Carbon Agriculture Market - 2025-2032
出版日期: | 出版商: DataM Intelligence | 英文 180 Pages | 商品交期: 最快1-2个工作天内

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简介目录

2024 年全球低碳农业市场规模达到 5.7142 亿美元,预计到 2032 年将达到 17.1902 亿美元,在 2025-2032 年预测期内的复合年增长率为 14.76%。

随着公平气候网络等措施证明永续农业的经济和环境可行性,低碳农业市场正获得关注。此模式透过使小农户和边际农户采用低排放实务并获得碳收入,有助于提高产量、降低成本并提高市场回报。由于农业对温室气体排放的贡献很大(仅在印度就占28%),这种方法提供了与气候目标和农村经济发展一致的可扩展解决方案。

低碳农业市场趋势

作为应对不断增长的粮食需求和气候问题的策略性倡议,低碳农业正受到越来越多的关注。预计到 2050 年,农业产量将增加 70%,提高产量的同时减少温室气体排放的压力也越来越大。目前,温室气体排放量约占全球人为排放量的 31%。

农林业等永续农业方法正在整个农业食品价值链中蓬勃发展。这些技术透过增强土壤碳储存和提高土地效率来支持减少排放,同时也提高了农业的復原力和农民的生计。这一趋势反映了向环境负责型农业的更广泛转变,其驱动力包括政策支援、企业永续发展承诺以及对气候智慧型食品系统日益增长的需求。

动力学

政府激励和政策支持

世界各国政府越来越认识到农业在减缓气候变迁中的关键作用,并正在实施支持性政策,加速低碳农业体系的转型。政府正在采取补贴、减税、碳信用计画和补助等财政激励措施,鼓励采用气候智慧型做法,包括再生农业、低排放肥料和永续土地利用技术。

例如,巴西的低碳农业转型机制(LATM)在国家气候目标的支持下,为中小型农户提供长期贷款、收入保障和技术援助,以支持其向永续实践转型。透过优惠融资和风险缓解工具,它与巴西的国家自主贡献目标一致,展示了政策驱动的金融机制如何调动私人资本和扩大气候智慧型农业。

初始实施成本高

向低碳农业的转型通常需要大量的前期投资,这可能会对低碳农业的广泛采用造成重大障碍。主要开支包括采购专用设备、采用先进技术以及农民能力建设措施。对于在资源受限的环境中经营的小农户和农业企业来说,这些成本尤其沉重。

在发展中地区,获得可负担融资选择的管道有限,进一步加剧了这项挑战,阻碍了利害关係人投资低碳解决方案,儘管这些解决方案具有长期的环境和经济效益。因此,高昂的初始实施成本仍然是市场成长的关键限制因素,强调需要有针对性的金融机制、补贴和公私合作伙伴关係来支持低碳农业实践的可扩展部署。

目录

第一章:方法论和范围

第 2 章:定义与概述

第三章:执行摘要

第四章:动态

  • 影响因素
    • 驱动程式
      • 政府激励和政策支持
    • 限制
      • 初始实施成本高
    • 机会
    • 影响分析

第五章:产业分析

  • 波特五力分析
  • 供应链分析
  • 定价分析
  • 监理与合规分析
  • 可持续性分析
  • DMI 意见

第六章:依实践类型

  • 农林业
  • 保护性耕作/免耕农业
  • 覆盖作物
  • 作物轮作
  • 有机农业
  • 精准农业
  • 生物炭应用
  • 改善牲畜管理
  • 营养管理

第七章:奉献

  • 产品
    • 生物肥料
    • 生物农药
    • 堆肥和土壤改良剂
    • 低排放种子和作物
    • 再生能源设备
  • 服务
    • 碳信用额度总结与交易
    • 监测、报告和核查(MRV)
    • 咨询和技术顾问
    • 土壤碳检测服务
    • 永续性认证与稽核

第 8 章:依作物类型

  • 谷物和谷类
  • 水果和蔬菜
  • 油籽和豆类
  • 饲料作物
  • 其他的

第 9 章:按最终用户

  • 个体农户
  • 大型商业农场
  • 农业企业/合作社
  • 农业科技公司
  • 碳信用额买家
  • 政府和监管机构
  • 研究机构

第十章:按地区

  • 北美洲
    • 我们
    • 加拿大
    • 墨西哥
  • 欧洲
    • 德国
    • 英国
    • 法国
    • 义大利
    • 西班牙
    • 欧洲其他地区
  • 南美洲
    • 巴西
    • 阿根廷
    • 南美洲其他地区
  • 亚太
    • 中国
    • 印度
    • 日本
    • 澳洲
    • 亚太其他地区
  • 中东和非洲

第 11 章:公司简介

  • Yara International
    • 公司概况
    • 产品组合和描述
    • 财务概览
    • 关键进展
  • BASF SE
  • Bayer AG
  • Syngenta
  • Nutrien
  • Viterra
  • Bunge Ltd
  • MyEasyFarm
  • Indigo Ag, Inc.
  • xFarm Technologies

第 12 章:附录

简介目录
Product Code: AG9467

The Global low-carbon agriculture market reached US$571.42 million in 2024 and is expected to reach US$ 1,719.02 million by 2032, growing at a CAGR of 14.76% during the forecast period 2025-2032.

The low-carbon agriculture market is gaining traction as initiatives such as the Fair Climate Network demonstrate the economic and environmental viability of sustainable farming. By enabling small and marginal farmers to adopt low-emission practices and earn carbon revenue, the model supports yield improvements, cost reductions, and better market returns. With agriculture contributing significantly to GHG emissions-28% in India alone-this approach offers a scalable solution aligned with climate goals and rural economic development.

Low-Carbon Agriculture Market Trend

Low-carbon agriculture is gaining traction as a strategic response to rising food demand and climate concerns. With agricultural production expected to increase by 70% by 2050, there is growing pressure to boost yields while reducing greenhouse gas emissions, currently accounting for around 31% of global anthropogenic emissions.

Sustainable farming approaches such as agroforestry are gaining momentum across the agri-food value chain. These techniques support emission reductions by enhancing soil carbon storage and improving land efficiency, while also promoting agricultural resilience and farmer livelihoods. The trend reflects a broader shift toward environmentally responsible agriculture, driven by policy support, corporate sustainability commitments, and the growing demand for climate-smart food systems.

Dynamics

Government Incentives and Policy Support

Governments worldwide are increasingly recognizing the critical role of agriculture in climate change mitigation and are implementing supportive policies to accelerate the transition to low-carbon farming systems. Financial incentives such as subsidies, tax breaks, carbon credit schemes, and grants are being deployed to encourage the adoption of climate-smart practices, including regenerative agriculture, low-emission fertilizers, and sustainable land use techniques.

For example, Brazil's Low-Carbon Agriculture Transition Mechanism (LATM), backed by national climate goals, provides small- and medium-sized farmers with long-term loans, income guarantees, and technical assistance to support the transition to sustainable practices. Through concessional financing and risk mitigation tools, it aligns with Brazil's NDC targets, showcasing how policy-driven financial mechanisms can mobilize private capital and scale climate-smart agriculture.

High Initial Implementation Costs

The transition to low-carbon agriculture often involves substantial upfront investments, which can pose significant barriers to widespread adoption. Key expenses include the procurement of specialized equipment, the adoption of advanced technologies, and capacity-building initiatives for farmers. These costs can be particularly burdensome for smallholder farmers and agricultural enterprises operating in resource-constrained environments.

In developing regions, limited access to affordable financing options further exacerbates the challenge, discouraging stakeholders from investing in low-carbon solutions despite their long-term environmental and economic benefits. As a result, the high initial implementation costs remain a critical restraint on market growth, underscoring the need for targeted financial mechanisms, subsidies, and public-private partnerships to support the scalable deployment of low-carbon agricultural practices.

Segment Analysis

The global low-carbon agriculture market is segmented based on practice type, offering, crop type, end-user and region.

Product Innovations Accelerate Market Penetration in Low-Carbon Farming

The product offering segment of the low-carbon agriculture market plays a crucial role in decarbonizing the agricultural value chain. It includes low-emission fertilizers, bio-based crop protection agents, carbon-smart seeds, and precision agriculture tools. These inputs are designed to reduce greenhouse gas (GHG) emissions while maintaining crop yields and soil health. Growing corporate commitments to climate action are accelerating demand for these sustainable inputs.

For example, in March 2025, 3Degrees launched the Low Carbon Fertilizer Alliance-backed by Mars and CF Industries-which highlights the pivotal role of product-based solutions in reducing agricultural emissions. Through emissions abatement projects and standardized reporting, the initiative strengthens the dominance of the product segment in the low-carbon agriculture market.

Geographical Penetration

Asia-Pacific Emerges as a Strategic Hub for Low-Carbon Agriculture Initiatives

The Asia-Pacific region is emerging as a dominant player in the low-carbon agriculture market, driven by increasing climate change concerns, food security needs, and regulatory support across countries like China, India, Thailand, and Japan. Governments and private enterprises are actively investing in sustainable farming methods to reduce emissions and build climate-resilient agri-food systems.

For example, June 2024, Suntory Holdings' low-carbon sugarcane farming project in Thailand, launched in collaboration with the VIVE Programme and KTIS. This three-year initiative focuses on implementing regenerative practices and building scalable, low-carbon supply chains. Aligned with Suntory's 2030 goal of cutting GHG emissions by 30%, the project highlights the region's strategic focus on sustainable Agri-value chains and climate-resilient food systems.

Sustainability Analysis

The shift toward low-carbon agriculture (LCA) is gaining traction as a strategic response to the dual pressures of rising global food demand and escalating climate change impacts. With agricultural production expected to rise by 70% by 2050, transforming farming systems into more sustainable, low-emission models is essential. The agriculture sector currently contributes approximately 31% of global anthropogenic greenhouse gas emissions, particularly in low- and middle-income countries. A sustainable transition is therefore critical to achieving long-term food security while mitigating environmental degradation.

Low-carbon agriculture presents a forward-looking solution that supports development goals through climate-resilient farming systems. Guided by the principles of climate-smart agriculture, LCA targets three core objectives: increasing productivity and farmer incomes, enhancing climate resilience, and reducing greenhouse gas emissions through techniques like soil carbon sequestration and reduced land-use change. Practices such as intercropping, crop rotation, contour farming, rotational grazing, and no- or low-till farming are widely promoted within this framework.

These methods deliver multifaceted benefits, including improved yields, reduced input costs, enhanced carbon storage, and higher incomes for farmers. For example, in Brazil, intercropping cocoa with bananas, cassava, and native Amazonian trees offers ecological and economic advantages-improving household food security, diversifying income streams, and enhancing soil and crop resilience. Such integrated approaches not only align with sustainability goals but also create more commercially viable, climate-adaptive agricultural systems.

Competitive Landscape

The major global players in the market include Yara International, BASF SE, Bayer AG, Syngenta, Nutrien, Viterra, Bunge Ltd, MyEasyFarm, Indigo Ag, Inc. and xFarm Technologies.

Key Developments

  • In February 2025, Tesco, in collaboration with ABP and Branston, launched two low-carbon concept farms 2024 to test innovative solutions for reducing agricultural emissions. The farms will focus on alternative fuels, carbon capture, low-carbon fertilizers, and sustainable practices like soil health and biodiversity monitoring, supporting Tesco's commitment to climate-smart farming.
  • In October 2024, Viterra partnered with xFarm Technologies to advance regenerative and low-carbon agriculture through innovative digital solutions. This strategic alliance supports the transition to sustainable farming by integrating data-driven insights with regenerative practices, strengthening Viterra's commitment to environmental stewardship and resilient supply chains.

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Target Audience 2024

  • Manufacturers/ Buyers
  • Industry Investors/Investment Bankers
  • Research Professionals
  • Emerging Companies

Table of Contents

1. Methodology and Scope

  • 1.1. Research Methodology
  • 1.2. Research Objective and Scope of the Report

2. Definition and Overview

3. Executive Summary

  • 3.1. Snippet by Practice Type
  • 3.2. Snippet by Offering
  • 3.3. Snippet by Crop Type
  • 3.4. Snippet by End-User
  • 3.5. Snippet by Region

4. Dynamics

  • 4.1. Impacting Factors
    • 4.1.1. Drivers
      • 4.1.1.1. Government Incentives and Policy Support
    • 4.1.2. Restraints
      • 4.1.2.1. High Initial Implementation Costs
    • 4.1.3. Opportunity
    • 4.1.4. Impact Analysis

5. Industry Analysis

  • 5.1. Porter's Five Force Analysis
  • 5.2. Supply Chain Analysis
  • 5.3. Pricing Analysis
  • 5.4. Regulatory and Compliance Analysis
  • 5.5. Sustainability Analysis
  • 5.6. DMI Opinion

6. By Practice Type

  • 6.1. Introduction
    • 6.1.1. Market Size Analysis and Y-o-Y Growth Analysis (%), By Practice Type
    • 6.1.2. Market Attractiveness Index, By Practice Type
  • 6.2. Agroforestry*
    • 6.2.1. Introduction
    • 6.2.2. Market Size Analysis and Y-o-Y Growth Analysis (%)
  • 6.3. Conservation Tillage / No-till Farming
  • 6.4. Cover Cropping
  • 6.5. Crop Rotation
  • 6.6. Organic Farming
  • 6.7. Precision Farming
  • 6.8. Biochar Application
  • 6.9. Improved Livestock Management
  • 6.10. Nutrient Management

7. By Offering

  • 7.1. Introduction
    • 7.1.1. Market Size Analysis and Y-o-Y Growth Analysis (%), By Offering
    • 7.1.2. Market Attractiveness Index, By Offering
  • 7.2. Products*
    • 7.2.1. Introduction
    • 7.2.2. Market Size Analysis and Y-o-Y Growth Analysis (%)
    • 7.2.3. Biofertilizers
    • 7.2.4. Biopesticides
    • 7.2.5. Compost and Soil Conditioners
    • 7.2.6. Low-emission Seeds and Crops
    • 7.2.7. Renewable Energy Equipment
  • 7.3. Services
    • 7.3.1. Carbon Credit Aggregation & Trading
    • 7.3.2. Monitoring, Reporting & Verification (MRV)
    • 7.3.3. Consulting and Technical Advisory
    • 7.3.4. Soil Carbon Testing Services
    • 7.3.5. Sustainability Certifications & Audits

8. By Crop Type

  • 8.1. Introduction
    • 8.1.1. Market Size Analysis and Y-o-Y Growth Analysis (%), By Crop Type
    • 8.1.2. Market Attractiveness Index, By Crop Type
  • 8.2. Cereals & Grains*
    • 8.2.1. Introduction
    • 8.2.2. Market Size Analysis and Y-o-Y Growth Analysis (%)
  • 8.3. Fruits & Vegetables
  • 8.4. Oilseeds & Pulses
  • 8.5. Forage Crops
  • 8.6. Others

9. By End-User

  • 9.1. Introduction
    • 9.1.1. Market Size Analysis and Y-o-Y Growth Analysis (%), By End-User
    • 9.1.2. Market Attractiveness Index, By End-User
  • 9.2. Individual Farmers*
    • 9.2.1. Introduction
    • 9.2.2. Market Size Analysis and Y-o-Y Growth Analysis (%)
  • 9.3. Large-Scale Commercial Farms
  • 9.4. Agri-businesses / Cooperatives
  • 9.5. Agri-tech Companies
  • 9.6. Carbon Credit Buyers
  • 9.7. Government & Regulatory Bodies
  • 9.8. Research Institutions

10. By Region

  • 10.1. Introduction
    • 10.1.1. Market Size Analysis and Y-o-Y Growth Analysis (%), By Region
    • 10.1.2. Market Attractiveness Index, By Region
  • 10.2. North America
    • 10.2.1. Introduction
    • 10.2.2. Key Region-Specific Dynamics
    • 10.2.3. Market Size Analysis and Y-o-Y Growth Analysis (%), By Practice Type
    • 10.2.4. Market Size Analysis and Y-o-Y Growth Analysis (%), By Offering
    • 10.2.5. Market Size Analysis and Y-o-Y Growth Analysis (%), By Crop Type
    • 10.2.6. Market Size Analysis and Y-o-Y Growth Analysis (%), By End-User
    • 10.2.7. Market Size Analysis and Y-o-Y Growth Analysis (%), By Country
      • 10.2.7.1. US
      • 10.2.7.2. Canada
      • 10.2.7.3. Mexico
  • 10.3. Europe
    • 10.3.1. Introduction
    • 10.3.2. Key Region-Specific Dynamics
    • 10.3.3. Market Size Analysis and Y-o-Y Growth Analysis (%), By Practice Type
    • 10.3.4. Market Size Analysis and Y-o-Y Growth Analysis (%), By Offering
    • 10.3.5. Market Size Analysis and Y-o-Y Growth Analysis (%), By Crop Type
    • 10.3.6. Market Size Analysis and Y-o-Y Growth Analysis (%), By End-User
    • 10.3.7. Market Size Analysis and Y-o-Y Growth Analysis (%), By Country
      • 10.3.7.1. Germany
      • 10.3.7.2. UK
      • 10.3.7.3. France
      • 10.3.7.4. Italy
      • 10.3.7.5. Spain
      • 10.3.7.6. Rest of Europe
  • 10.4. South America
    • 10.4.1. Introduction
    • 10.4.2. Key Region-Specific Dynamics
    • 10.4.3. Market Size Analysis and Y-o-Y Growth Analysis (%), By Practice Type
    • 10.4.4. Market Size Analysis and Y-o-Y Growth Analysis (%), By Offering
    • 10.4.5. Market Size Analysis and Y-o-Y Growth Analysis (%), By Crop Type
    • 10.4.6. Market Size Analysis and Y-o-Y Growth Analysis (%), By End-User
    • 10.4.7. Market Size Analysis and Y-o-Y Growth Analysis (%), By Country
      • 10.4.7.1. Brazil
      • 10.4.7.2. Argentina
      • 10.4.7.3. Rest of South America
  • 10.5. Asia-Pacific
    • 10.5.1. Introduction
    • 10.5.2. Key Region-Specific Dynamics
    • 10.5.3. Market Size Analysis and Y-o-Y Growth Analysis (%), By Practice Type
    • 10.5.4. Market Size Analysis and Y-o-Y Growth Analysis (%), By Offering
    • 10.5.5. Market Size Analysis and Y-o-Y Growth Analysis (%), By Crop Type
    • 10.5.6. Market Size Analysis and Y-o-Y Growth Analysis (%), By End-User
    • 10.5.7. Market Size Analysis and Y-o-Y Growth Analysis (%), By Country
      • 10.5.7.1. China
      • 10.5.7.2. India
      • 10.5.7.3. Japan
      • 10.5.7.4. Australia
      • 10.5.7.5. Rest of Asia-Pacific
  • 10.6. Middle East and Africa
    • 10.6.1. Introduction
    • 10.6.2. Key Region-Specific Dynamics
    • 10.6.3. Market Size Analysis and Y-o-Y Growth Analysis (%), By Practice Type
    • 10.6.4. Market Size Analysis and Y-o-Y Growth Analysis (%), By Offering
    • 10.6.5. Market Size Analysis and Y-o-Y Growth Analysis (%), By Crop Type
    • 10.6.6. Market Size Analysis and Y-o-Y Growth Analysis (%), By End-User

11. Company Profiles

  • 11.1. Yara International*
    • 11.1.1. Company Overview
    • 11.1.2. Product Portfolio and Description
    • 11.1.3. Financial Overview
    • 11.1.4. Key Developments
  • 11.2. BASF SE
  • 11.3. Bayer AG
  • 11.4. Syngenta
  • 11.5. Nutrien
  • 11.6. Viterra
  • 11.7. Bunge Ltd
  • 11.8. MyEasyFarm
  • 11.9. Indigo Ag, Inc.
  • 11.10. xFarm Technologies

LIST NOT EXHAUSTIVE

12. Appendix

  • 12.1. About Us and Services
  • 12.2. Contact Us