Seasonal and Interannual Fluctuation of the Microbial Soil Community in a Maize Field under Long-Term Conservation Agriculture Management

Ramírez, Manuel; López‐Piñeiro, Antonio; Peña, David; Nunes, José Rato; Albarrán, Ángel; Múñoz, Ángel Suárez; Gama, José Telo da; Loures, Luís

doi:10.3390/su9050778

Cited by 7 publications

(5 citation statements)

References 71 publications

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“…Soil pH is probably the single most informative measurement to determine the chemical and biological properties of the soils as it regulates the quantity, and informs the availability of essential nutrients and toxicity of others [24,35], it conditions the plant (and therefore to some extent, animal) species that predominate in a landscape, and it impacts the soil microorganisms which promotes soil sustainability [36] with a 5.8 ≤ pH ≤ 6.5 directly related to the optimal productivity of most crops.…”

Section: Introductionmentioning

confidence: 99%

Assessing Spatial and Temporal Variability for Some Edaphic Characteristics of Mediterranean Rainfed and Irrigated Soils

et al. 2019

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Mediterranean soils are particularly threatened by salinization and low levels of organic matter content. In order to assess an edaphic sustainable use, we need to study its characteristics and better understand the temporal and spatial evolution. In this study, a total of 14,852 ha located in a western Mediterranean basin were selected as the study site where 1417 and 1451 topsoil samples were analyzed in 2001/2002 and 2011/2012, respectively, for Soil Organic Matter (SOM) content, pH water (pHw) and electrical conductivity (EC). Classical statistics and geostatistics techniques were used and the individual soil samples were related with the cultural system (CS) practiced–rainfed/irrigation–and the Reference Soil Group (RSG)–Cambisols, Calcisols, Luvisols, and Fluvisols. Predictive maps were created by interpolation using the Ordinary Kriging algorithm. The main results of this study were that, when transitioning from a rainfed to irrigation CS, SOM content is maintained in Cambisols but decreases in the other RSGs, pHw is maintained and EC increases in Fluvisols, Luvisols, and Cambisols. Over time in the rainfed CS all RSGs maintained SOM and pHw but EC increased in Fluvisols, Luvisols, and Calcisols and in the irrigation CS SOM decreased in Luvisols, pHw increased in Fluvisols and Calcisols and EC increased in all RSGs.

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Section: Introductionmentioning

confidence: 99%

Assessing Spatial and Temporal Variability for Some Edaphic Characteristics of Mediterranean Rainfed and Irrigated Soils

et al. 2019

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“…This effect was reported by Ramírez et al . [ 45 ] in a maize field under long-term conservation agriculture management. Different soil amendments also had significant effects on soil bacterial community structures, but the variance in structure was weakened in the late maize cropping stage.…”

Section: Discussionmentioning

confidence: 99%

Responses of Soil Rare and Abundant Sub-Communities and Physicochemical Properties after Application of Different Chinese Herb Residue Soil Amendments

Chang

Jia

Guan

et al. 2022

J. Microbiol. Biotechnol.

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Microbial diversity in the soil is responsive to changes in soil composition. However, the impact of soil amendments on the diversity and structure of rare and abundant sub-communities in agricultural systems is poorly understood. We investigated the effects of different Chinese herb residue (CHR) soil amendments and cropping systems on bacterial rare and abundant sub-communities. Our results showed that the bacterial diversity and structure of these sub-communities in soil had a specific distribution under the application of different soil amendments. The CHR soil amendments with high nitrogen and organic matter additives significantly increased the relative abundance and stability of rare taxa, which increased the structural and functional redundancy of soil bacterial communities. Rare and abundant sub-communities also showed different preferences in terms of bacterial community composition, as the former was enriched with Bacteroidetes while the latter had more Alphaproteobacteria and Betaproteobacteria . All applications of soil amendments significantly improved soil quality of newly created farmlands in whole maize cropping system. Rare sub-communitiy genera Niastella and Ohtaekwangia were enriched during the maize cropping process, and Nitrososphaera was enriched under the application of simple amendment group soil. Thus, Chinese medicine residue soil amendments with appropriate additives could affect soil rare and abundant sub-communities and enhance physicochemical properties. These findings suggest that applying soil composite amendments based on CHR in the field could improve soil microbial diversity, microbial redundancy, and soil fertility for sustainable agriculture on the Loess Plateau.

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“…Soils form the bedrock of terrestrial ecosystems, supporting a diverse array of flora and fauna including a myriad of microorganisms that drive biogeochemical processes [35]. This biodiversity underpins the provision of ecosystem services-the countless benefits that nature provides to humans, often governed by soil properties such as texture, structure, and organic matter content [36][37][38].…”

Section: Role Of Soils In Ecosystem Services and Nutrient Cyclingmentioning

confidence: 99%

The Role of Soils in Sustainability, Climate Change, and Ecosystem Services: Challenges and Opportunities

Gama

2023

Ecologies

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Soils are crucial life supporters and nutrient providers, their functionality impacted by their nutritional balance, pH, and organic matter content. These substrates help regulate water, support diverse organisms, and play a critical role in carbon sequestration, especially in the context of climate change. However, soils are under threat from anthropogenic and climatic pressures, warranting active resource management strategies. The European Union (EU) has acknowledged soil sustainability’s importance, encouraging eco-friendly agricultural practices and enhanced soil carbon storage. However, the criticality of soils is often overlooked when establishing global sustainable development goals. Counteracting soil degradation is key in battling desertification and influenced by factors like unsustainable agriculture, deforestation, and poor irrigation. Innovative solutions like circular economy approaches and sustainable biomass utilization are necessary to reduce greenhouse gas emissions. Also, improving dietary habits and reducing food waste can help mitigate the environmental impact of food consumption, with a shift towards plant-based proteins being more sustainable. Addressing these challenges will contribute to a more sustainable and resilient future.

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Seasonal and Interannual Fluctuation of the Microbial Soil Community in a Maize Field under Long-Term Conservation Agriculture Management

Cited by 7 publications

References 71 publications

Assessing Spatial and Temporal Variability for Some Edaphic Characteristics of Mediterranean Rainfed and Irrigated Soils

Assessing Spatial and Temporal Variability for Some Edaphic Characteristics of Mediterranean Rainfed and Irrigated Soils

Responses of Soil Rare and Abundant Sub-Communities and Physicochemical Properties after Application of Different Chinese Herb Residue Soil Amendments

The Role of Soils in Sustainability, Climate Change, and Ecosystem Services: Challenges and Opportunities

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