Cocoa pod husk-derived organic soil amendments differentially affect soil fertility, nutrient leaching, and greenhouse gas emissions in cocoa soils

IF 9.7 1区环境科学与生态学 Q1 ENGINEERING, ENVIRONMENTAL Journal of Cleaner Production Pub Date : 2024-10-22 DOI:10.1016/j.jclepro.2024.144065

Lumbani Mwafulirwa, Tom Sizmur, Andrew Daymond, Laura Atuah, Amos Kojo Quaye, Sean Coole, Steve Robinson, John Hammond, Godfred Awudzi, Dadson Awunyo-Vitor, Owusu Domfeh, Paul Hadley

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Abstract

The depletion of soil nutrients and decline in yields on cocoa farms in west Africa over time force farmers to abandon their farms and look for new fertile land, thereby contributing to deforestation. Cocoa pod husks (CPH) are a major farm waste representing considerable export of nutrients from cocoa soils, particularly P and K. Here, the impacts of soil amendment with raw CPH residues, CPH compost, CPH biochar, or a CPH compost-biochar mixture on soil fertility, greenhouse gas (GHG) emissions, and nutrient losses via leaching were assessed in two laboratory experiments using two major soil types used for cocoa cultivation in Ghana (an acidic Ferralsol and an alkaline Nitisol). In Experiment 1, soil nutrient availability and CO₂ and N₂O emissions were quantified, whereas simulation and quantification of nutrient leaching were conducted in Experiment 2. Soil pH increased from 4.8 and 8.6 by 1.4- and 1.1-folds on average in amended Ferralsols and Nitisols, respectively. Soil electrical conductivity increased in soils amended with CPH compost and/or biochar. Addition of raw CPH caused remarkable microbial immobilisation of N and reduced N availability and leaching, whereas CPH compost and/or biochar addition increased soil nitrate availability but reduced soil ammonium availability. Leaching of Ca in Nitisols was reduced when CPH biochar was included in the soil amendment. While soil K availability increased in all amended soils, most notably when CPH biochar was included, soil P and Ca availabilities were greatest where CPH compost was included. Soil total GHG emission (CO₂ plus N₂O) increased in all amended Ferralsols and the Nitisols amended with CPH compost or raw CPH, with the latter remarkably increasing soil CO₂ emission by up to 14.8-folds. Compared to sole CPH compost amendment, CPH compost-biochar mixture amendment reduced soil total GHG emission and N and P leaching. These findings show that composted and/or pyrolysed CPH can be judiciously used to enhance soil fertility in cocoa farms, particularly in acidic soils. Pyrolysed CPH is especially beneficial for reducing soil nutrient leaching and GHG emissions and thus for increasing the sustainability of cocoa production in Ghana and west Africa.

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可可荚壳衍生的有机土壤改良剂对可可土壤的土壤肥力、养分沥滤和温室气体排放产生不同影响

随着时间的推移，西非可可农场的土壤养分耗尽，产量下降，迫使农民放弃农场，寻找新的肥沃土地，从而加剧了森林砍伐。可可荚壳（CPH）是一种主要的农场废弃物，代表着可可土壤养分的大量输出，尤其是钾和磷。在此，我们使用加纳可可种植使用的两种主要土壤类型（酸性的 Ferralsol 和碱性的 Nitisol）进行了两次实验室实验，评估了使用可可荚壳原残渣、可可荚壳堆肥、可可荚壳生物炭或可可荚壳堆肥-生物炭混合物进行土壤改良对土壤肥力、温室气体（GHG）排放和养分沥滤损失的影响。在实验 1 中，对土壤养分的可用性以及二氧化碳和一氧化二氮的排放进行了量化，而在实验 2 中则对养分沥滤进行了模拟和量化。经改良的铁质土壤和硝质土壤的土壤 pH 值分别从 4.8 和 8.6 平均上升了 1.4 倍和 1.1 倍。添加了 CPH 堆肥和/或生物炭的土壤导电率增加。添加未加工的氯化石蜡可显著提高微生物对氮的固定作用，降低氮的可利用性和沥滤，而添加氯化石蜡堆肥和/或生物炭则可提高土壤硝酸盐的可利用性，但降低土壤铵的可利用性。在土壤改良剂中加入 CPH 生物炭后，Nitisols 中钙的沥滤减少了。在所有改良土壤中，土壤钾的利用率都有所提高，其中以添加 CPH 生物炭的土壤最为明显，而添加 CPH 堆肥的土壤钾和钙的利用率最高。在所有添加了 CPH 堆肥或未加工 CPH 的肥沃土壤和硝酸盐土壤中，土壤温室气体排放总量（二氧化碳和氧化亚氮）都有所增加，其中后者显著增加了土壤二氧化碳排放量，增幅高达 14.8 倍。与仅添加 CPH 堆肥相比，添加 CPH 堆肥-生物炭混合物可减少土壤温室气体排放总量以及氮和磷的沥滤。这些研究结果表明，堆肥和/或热解 CPH 可用于提高可可农场的土壤肥力，尤其是在酸性土壤中。热解氯化石蜡尤其有利于减少土壤养分沥滤和温室气体排放，从而提高加纳和西非可可生产的可持续性。

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来源期刊

Journal of Cleaner Production 环境科学-工程：环境

CiteScore

20.40

自引率

9.00%

发文量

4720

审稿时长

111 days

期刊介绍： The Journal of Cleaner Production is an international, transdisciplinary journal that addresses and discusses theoretical and practical Cleaner Production, Environmental, and Sustainability issues. It aims to help societies become more sustainable by focusing on the concept of 'Cleaner Production', which aims at preventing waste production and increasing efficiencies in energy, water, resources, and human capital use. The journal serves as a platform for corporations, governments, education institutions, regions, and societies to engage in discussions and research related to Cleaner Production, environmental, and sustainability practices.