Sara Paliaga, Sofia Maria Muscarella, Caterina Lucia, Daniela Pampinella, Eristanna Palazzolo, Luigi Badalucco, Giuseppe Badagliacca, Vito Armando Laudicina
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While several studies have examined the effects of transitioning from conventional to organic farming on soil chemistry and biochemistry, limited research has explored the influence of land use variations on soil fertility within long-term organic farming systems.</p>\n </section>\n \n <section>\n \n <h3> Aims</h3>\n \n <p>Therefore, the aim of this study was to assess how three different land uses—pasture, vegetable crops, and orchard—affected soil fertility under a long-term organic farming system.</p>\n </section>\n \n <section>\n \n <h3> Methods</h3>\n \n <p>Soil samples were collected from the 0 to 15 cm layer of plots used for pasture, vegetable crops and orchard, being the latter cover cropped with legumes, and analyzed to determine chemical and biochemical soil parameters.</p>\n </section>\n \n <section>\n \n <h3> Results</h3>\n \n <p>Contrary to expectations, high land use intensity (vegetable crops and orchard soils) resulted in increased soil organic C and total N, compared to low intensity (pasture). Such an increase was ascribed to farmyard manure addition that counteracted the negative impact of tillage. Consequently, microbial biomass C and activity also increased. The greatest availability of organic substrates favored bacteria, particularly gram-positive strains, shaping the microbial community. However, despite changes of microbial biomass and of the main microbial groups, microbial activity was only slightly affected, suggesting high functional redundancy of microorganisms in long-term organic farming soil.</p>\n </section>\n \n <section>\n \n <h3> Conclusions</h3>\n \n <p>Results suggested that if land use intensification provides for organic supply, its negative impact on soil fertility may be mitigated.</p>\n </section>\n </div>","PeriodicalId":16802,"journal":{"name":"Journal of Plant Nutrition and Soil Science","volume":"187 2","pages":"287-294"},"PeriodicalIF":2.6000,"publicationDate":"2024-03-09","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Long-term organic management: Mitigating land use intensity drawbacks and enhancing soil microbial redundancy\",\"authors\":\"Sara Paliaga, Sofia Maria Muscarella, Caterina Lucia, Daniela Pampinella, Eristanna Palazzolo, Luigi Badalucco, Giuseppe Badagliacca, Vito Armando Laudicina\",\"doi\":\"10.1002/jpln.202300252\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div>\\n \\n \\n <section>\\n \\n <h3> Background</h3>\\n \\n <p>Soils under organic farming systems exhibit better quality and higher biological activity than conventional systems. Manure addition, especially coupled with reduced or no tillage, significantly enhances microbial biomass and activity by improving soil physical properties and providing carbon (C) and nitrogen (N) sources. While several studies have examined the effects of transitioning from conventional to organic farming on soil chemistry and biochemistry, limited research has explored the influence of land use variations on soil fertility within long-term organic farming systems.</p>\\n </section>\\n \\n <section>\\n \\n <h3> Aims</h3>\\n \\n <p>Therefore, the aim of this study was to assess how three different land uses—pasture, vegetable crops, and orchard—affected soil fertility under a long-term organic farming system.</p>\\n </section>\\n \\n <section>\\n \\n <h3> Methods</h3>\\n \\n <p>Soil samples were collected from the 0 to 15 cm layer of plots used for pasture, vegetable crops and orchard, being the latter cover cropped with legumes, and analyzed to determine chemical and biochemical soil parameters.</p>\\n </section>\\n \\n <section>\\n \\n <h3> Results</h3>\\n \\n <p>Contrary to expectations, high land use intensity (vegetable crops and orchard soils) resulted in increased soil organic C and total N, compared to low intensity (pasture). Such an increase was ascribed to farmyard manure addition that counteracted the negative impact of tillage. Consequently, microbial biomass C and activity also increased. The greatest availability of organic substrates favored bacteria, particularly gram-positive strains, shaping the microbial community. 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引用次数: 0
摘要
背景与传统耕作制度相比,有机耕作制度下的土壤质量更好,生物活性更高。添加粪肥,尤其是减少耕作或不耕作,可改善土壤物理特性并提供碳(C)和氮(N)源,从而显著提高微生物的生物量和活性。虽然有多项研究探讨了从传统耕作过渡到有机耕作对土壤化学和生物化学的影响,但探讨长期有机耕作系统中土地利用变化对土壤肥力影响的研究还很有限。因此,本研究旨在评估长期有机耕作系统中三种不同的土地利用方式(牧草、蔬菜作物和果园)对土壤肥力的影响。结果与预期相反,与低强度(牧场)相比,高土地利用强度(蔬菜作物和果园土壤)增加了土壤有机碳和全氮。这种增加归因于农家肥的添加抵消了耕作的负面影响。因此,微生物的生物量 C 和活性也有所增加。有机基质的最大可用性有利于细菌,尤其是革兰氏阳性菌株,从而形成了微生物群落。然而,尽管微生物生物量和主要微生物群发生了变化,但微生物活性仅受到轻微影响,这表明在长期有机耕作的土壤中,微生物的功能冗余度很高。
Long-term organic management: Mitigating land use intensity drawbacks and enhancing soil microbial redundancy
Background
Soils under organic farming systems exhibit better quality and higher biological activity than conventional systems. Manure addition, especially coupled with reduced or no tillage, significantly enhances microbial biomass and activity by improving soil physical properties and providing carbon (C) and nitrogen (N) sources. While several studies have examined the effects of transitioning from conventional to organic farming on soil chemistry and biochemistry, limited research has explored the influence of land use variations on soil fertility within long-term organic farming systems.
Aims
Therefore, the aim of this study was to assess how three different land uses—pasture, vegetable crops, and orchard—affected soil fertility under a long-term organic farming system.
Methods
Soil samples were collected from the 0 to 15 cm layer of plots used for pasture, vegetable crops and orchard, being the latter cover cropped with legumes, and analyzed to determine chemical and biochemical soil parameters.
Results
Contrary to expectations, high land use intensity (vegetable crops and orchard soils) resulted in increased soil organic C and total N, compared to low intensity (pasture). Such an increase was ascribed to farmyard manure addition that counteracted the negative impact of tillage. Consequently, microbial biomass C and activity also increased. The greatest availability of organic substrates favored bacteria, particularly gram-positive strains, shaping the microbial community. However, despite changes of microbial biomass and of the main microbial groups, microbial activity was only slightly affected, suggesting high functional redundancy of microorganisms in long-term organic farming soil.
Conclusions
Results suggested that if land use intensification provides for organic supply, its negative impact on soil fertility may be mitigated.
期刊介绍:
Established in 1922, the Journal of Plant Nutrition and Soil Science (JPNSS) is an international peer-reviewed journal devoted to cover the entire spectrum of plant nutrition and soil science from different scale units, e.g. agroecosystem to natural systems. With its wide scope and focus on soil-plant interactions, JPNSS is one of the leading journals on this topic. Articles in JPNSS include reviews, high-standard original papers, and short communications and represent challenging research of international significance. The Journal of Plant Nutrition and Soil Science is one of the world’s oldest journals. You can trust in a peer-reviewed journal that has been established in the plant and soil science community for almost 100 years.
Journal of Plant Nutrition and Soil Science (ISSN 1436-8730) is published in six volumes per year, by the German Societies of Plant Nutrition (DGP) and Soil Science (DBG). Furthermore, the Journal of Plant Nutrition and Soil Science (JPNSS) is a Cooperating Journal of the International Union of Soil Science (IUSS). The journal is produced by Wiley-VCH.
Topical Divisions of the Journal of Plant Nutrition and Soil Science that are receiving increasing attention are:
JPNSS – Topical Divisions
Special timely focus in interdisciplinarity:
- sustainability & critical zone science.
Soil-Plant Interactions:
- rhizosphere science & soil ecology
- pollutant cycling & plant-soil protection
- land use & climate change.
Soil Science:
- soil chemistry & soil physics
- soil biology & biogeochemistry
- soil genesis & mineralogy.
Plant Nutrition:
- plant nutritional physiology
- nutrient dynamics & soil fertility
- ecophysiological aspects of plant nutrition.
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