释放园艺作物的碳螯合潜力

C Pub Date : 2024-07-26 DOI:10.3390/c10030065
T. Ilakiya, Ettiyagounder Parameswari, Ramakrishna Swarnapriya, Gunasekaran Yazhini, Periasamy Kalaiselvi, Veeraswamy Davamani, Sudha Singh, Nedunchezhiyan Vinothini, Chelladurai Dharani, Sneha Leela Garnepudi, Ramasamy Ajaykumar
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引用次数: 0

摘要

随着全球变暖的威胁不断升级,探索可持续农业实践已成为当务之急。碳固存就是缓解碳排放和减少全球变暖的有效方法之一。在众多固碳方法中,以园艺作物为主的陆地固碳方法具有巨大潜力。园艺作物包括各种水果、蔬菜、种植园和观赏植物,为封存大量大气二氧化碳提供了独特的机会。特别是,与一年生作物相比,多年生园艺作物系统有许多好处,如提高生产率、减少水和投入需求,以及通过碳信用额获得更高的经济回报。然而,从一年生作物过渡到多年生作物在后勤和财政方面都面临挑战。种植园和园艺作物的固碳能力较大,为 16.4 Gt C,而农林系统的固碳能力为 6.3 Gt C。这些方法包括种植更多的生物质、回收农业废弃物、使用动物粪便、改种多年生作物、采用轮作方式以及鼓励农林系统。虽然这些方法有其优势,但需要大量的初始投资和持续的管理才能确保其有效性,而这些要求可能会阻碍其被广泛接受。本综述强调了园艺系统在改善土壤碳含量、土壤有机质动态、不同形式的碳及其整体固碳潜力方面的关键作用。通过释放园艺作物固碳的潜力,我们可以帮助最大限度地降低大气中的二氧化碳含量,减轻气候变化的影响,并确保营养安全和经济效益。
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Unlocking the Carbon Sequestration Potential of Horticultural Crops
As the world grapples with the escalating threat of global warming, exploring sustainable agricultural practices has become imperative. Carbon sequestration is one such efficient method to mitigate carbon emissions and reduce global warming. Among the numerous sequestration options, terrestrial methods, notably via horticultural crops, have enormous potential. Horticultural crops, which encompass a diverse array of fruits, vegetables, plantations, and ornamental plants, offer a unique chance to sequester a considerable amount of atmospheric carbon dioxide. In particular, perennial horticultural systems provide numerous benefits over annual crops, such as increased productivity, reduced water and input requirements, and higher economic returns via carbon credits. However, the transition from annual to perennial crops presents logistical and financial challenges. The carbon sequestration capacity of plantations and horticulture crops is larger, at 16.4 Gt C, compared to the agroforestry system, which is at 6.3 Gt C. In order to fully use this capacity, it is essential to employ effective carbon management systems. These methods include growing higher biomass, recycling agricultural waste, employing animal manure, switching to perennial crops, adopting crop rotation, and encouraging agroforestry systems. Although there are advantages, substantial initial investments and continuous management are required to ensure effectiveness, and these demands might hinder widespread acceptance. This review emphasizes the critical role of horticulture systems in improving soil carbon levels, soil organic matter dynamics, different forms of carbon, and their overall potential for carbon sequestration. By unlocking the potential of horticultural crops to sequester carbon, we can help minimize atmospheric carbon dioxide levels, lessen the impact of climate change, and ensure nutritional security and economic benefits.
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