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Agricultural practices involving the excessive use of chemical fertilizers and pesticides pose major risks to the environment and to human health. The development and adoption of sustainable ecofriendly agricultural management to preserve and enhance the physical, chemical, and biological properties of soils and improve agroecosystem functions is a challenge for both scientists and farmers. The Special Issue entitled “Sustainable Agricultural Practices—Impact on Soil Quality and Plant Health” is a collection of 10 original contributions addressing the state of the art of sustainable agriculture and its positive impact on soil quality. The content of this Special Issue covers a wide range of topics, including the use of beneficial soil microbes, intercropping, organic farming and its effects on soil bacteria and nutrient stocks, application of plant-based nematicides and zeolite amendments, sustainability in CH4 emissions, and the effect of irrigation, fertilization, and environmental conditions as well as land suitability on crop production.

Research & information: general --- natural substances --- nematicidal --- root-knot nematodes --- oregano --- soil amendments --- basic substances --- PCA --- land capability --- crop suitability --- GIS --- NWCE --- Egypt --- microbial inoculants --- soil enzyme activities --- soil microbes --- 16S rRNA --- planting pattern --- soil chemical properties --- soil microbial community --- genotype × environment interaction --- maize --- yield --- soil amelioration --- resource use efficiency --- water conservation --- nutrient retention --- heavy metal toxicity --- Cucumis melo L. --- chemical composition --- cultivar --- drip irrigation --- fruit quality --- long term field experiment --- sustainable crop production --- nutrient balances --- legume nutrition --- drained peat --- greenhouse gas --- global warming --- organic soil --- pineapple --- water table --- AMF --- enzyme activity --- microbial communities --- PGPR --- plant growth --- PLFAs --- n/a

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Agricultural practices involving the excessive use of chemical fertilizers and pesticides pose major risks to the environment and to human health. The development and adoption of sustainable ecofriendly agricultural management to preserve and enhance the physical, chemical, and biological properties of soils and improve agroecosystem functions is a challenge for both scientists and farmers. The Special Issue entitled “Sustainable Agricultural Practices—Impact on Soil Quality and Plant Health” is a collection of 10 original contributions addressing the state of the art of sustainable agriculture and its positive impact on soil quality. The content of this Special Issue covers a wide range of topics, including the use of beneficial soil microbes, intercropping, organic farming and its effects on soil bacteria and nutrient stocks, application of plant-based nematicides and zeolite amendments, sustainability in CH4 emissions, and the effect of irrigation, fertilization, and environmental conditions as well as land suitability on crop production.

Research & information: general --- natural substances --- nematicidal --- root-knot nematodes --- oregano --- soil amendments --- basic substances --- PCA --- land capability --- crop suitability --- GIS --- NWCE --- Egypt --- microbial inoculants --- soil enzyme activities --- soil microbes --- 16S rRNA --- planting pattern --- soil chemical properties --- soil microbial community --- genotype × environment interaction --- maize --- yield --- soil amelioration --- resource use efficiency --- water conservation --- nutrient retention --- heavy metal toxicity --- Cucumis melo L. --- chemical composition --- cultivar --- drip irrigation --- fruit quality --- long term field experiment --- sustainable crop production --- nutrient balances --- legume nutrition --- drained peat --- greenhouse gas --- global warming --- organic soil --- pineapple --- water table --- AMF --- enzyme activity --- microbial communities --- PGPR --- plant growth --- PLFAs

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Soil degradation is one of the most topical environmental threats. A number of processes causing soil degradation, specifically erosion, compaction, salinization, pollution, and loss of both organic matter and soil biodiversity, are also strictly connected to agricultural activity and its intensification. The development and adoption of sustainable agronomic practices able to preserve and enhance the physical, chemical, and biological properties of soils and improve agroecosystem functions is a challenge for both scientists and farmers. The Special Issue entitled “Sustainable Agriculture and Soil Conservation” collects 12 original contributions addressing the state of the art of sustainable agriculture and soil conservation. The papers cover a wide range of topics, including organic agriculture, soil amendment and soil organic carbon (SOC) management, the impact of SOC on soil water repellency, the effects of soil tillage on the quantity of SOC associated with several fractions of soil particles and depth, and SOC prediction, using visible and near-infrared spectra and multivariate modeling. Moreover, the effects of some soil contaminants (e.g., crude oil, tungsten, copper, and polycyclic aromatic hydrocarbons) are discussed or reviewed in light of the recent literature. The collection of the manuscripts presented in this Special Issue provides a relevant knowledge contribution for improving our understanding on sustainable agriculture and soil conservation, thus stimulating new views on this main topic.

Research & information: general --- Tungsten --- corn uptake --- soil characteristics --- Freundlich model --- Biolog® --- community-level physiological profiling (CLPP) --- functional diversity indices --- metabolic bacterial diversity --- olive --- soil fertility --- soil quality --- maize --- stomata --- soil --- phenanthrene --- remediation --- qualitative multi-attribute model --- total energy output --- agro-ecological service crops --- ex-post sustainability --- organic systems --- amendment --- biochar --- brewers’ spent grain --- hop --- image analysis --- plant growth --- Beerkan method --- infiltration --- forest restoration --- soil water repellency --- tillage --- fertilization --- soil depth --- organic carbon --- clay minerals --- diffuse reflectance --- infrared Fourier transform spectroscopy --- bioremediation --- composting --- PAHs --- organic co-substrates --- mulching --- flattening --- irrigation --- photosynthesis --- transpiration --- water stress integral --- fruit growth --- water use efficiency --- productivity --- soil organic matter --- near-infrared spectroscopy --- spatial heterogeneity --- multivariate adaptive regression splines --- partial least squares regression --- anaerobic digestion residues --- soil amendment --- soil fertilization --- soil organic C --- soil porosity --- soil microbial community --- copper --- rhizosphere --- smart agriculture --- microbes --- vineyard --- organic agriculture --- soil organic carbon --- soil management --- soil contamination --- soil remediation --- sustainable fruit growing --- water conservation practices --- multivariate statistical models for SOC prediction

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Soil degradation is one of the most topical environmental threats. A number of processes causing soil degradation, specifically erosion, compaction, salinization, pollution, and loss of both organic matter and soil biodiversity, are also strictly connected to agricultural activity and its intensification. The development and adoption of sustainable agronomic practices able to preserve and enhance the physical, chemical, and biological properties of soils and improve agroecosystem functions is a challenge for both scientists and farmers. The Special Issue entitled “Sustainable Agriculture and Soil Conservation” collects 12 original contributions addressing the state of the art of sustainable agriculture and soil conservation. The papers cover a wide range of topics, including organic agriculture, soil amendment and soil organic carbon (SOC) management, the impact of SOC on soil water repellency, the effects of soil tillage on the quantity of SOC associated with several fractions of soil particles and depth, and SOC prediction, using visible and near-infrared spectra and multivariate modeling. Moreover, the effects of some soil contaminants (e.g., crude oil, tungsten, copper, and polycyclic aromatic hydrocarbons) are discussed or reviewed in light of the recent literature. The collection of the manuscripts presented in this Special Issue provides a relevant knowledge contribution for improving our understanding on sustainable agriculture and soil conservation, thus stimulating new views on this main topic.

Tungsten --- corn uptake --- soil characteristics --- Freundlich model --- Biolog® --- community-level physiological profiling (CLPP) --- functional diversity indices --- metabolic bacterial diversity --- olive --- soil fertility --- soil quality --- maize --- stomata --- soil --- phenanthrene --- remediation --- qualitative multi-attribute model --- total energy output --- agro-ecological service crops --- ex-post sustainability --- organic systems --- amendment --- biochar --- brewers’ spent grain --- hop --- image analysis --- plant growth --- Beerkan method --- infiltration --- forest restoration --- soil water repellency --- tillage --- fertilization --- soil depth --- organic carbon --- clay minerals --- diffuse reflectance --- infrared Fourier transform spectroscopy --- bioremediation --- composting --- PAHs --- organic co-substrates --- mulching --- flattening --- irrigation --- photosynthesis --- transpiration --- water stress integral --- fruit growth --- water use efficiency --- productivity --- soil organic matter --- near-infrared spectroscopy --- spatial heterogeneity --- multivariate adaptive regression splines --- partial least squares regression --- anaerobic digestion residues --- soil amendment --- soil fertilization --- soil organic C --- soil porosity --- soil microbial community --- copper --- rhizosphere --- smart agriculture --- microbes --- vineyard --- organic agriculture --- soil organic carbon --- soil management --- soil contamination --- soil remediation --- sustainable fruit growing --- water conservation practices --- multivariate statistical models for SOC prediction

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This book emphasizes that soil productivity is considered an important factor for the success of agricultural production. The microbial community’s composition and the diversity of agricultural soils primarily depend on management practices. Exogenous nutritional inputs are inevitable processes in crop production, which can change the structure of soil bacterial communities. The combined application of compost and inorganic fertilizers might be a good way to keep up with agricultural productivity while maintaining the environmental balance. Bacterial communities are also known to differ according to the plant genotypes and hosts. Plant genotypic differences do not always lead to significant differences in microbiomes in the rhizosphere. It was concluded that imaginative research should address the simulation of the soil microenvironment, so as to understand the factors that regulate microbial activities in micro-niches.

Research & information: general --- halophyte --- arbuscular mycorrhizal fungi --- plant growth promoting rhizobacteria --- morphological characteristics --- photosynthesis --- soil enzymes --- microbial interactions --- rhizosphere --- DNA --- proteins --- microbial diversity --- microbial activity --- acidic soil improvement --- liming --- microbial community --- plant residue incorporation --- soil enzyme activity --- subtropical orchard soil --- phosphorus-enriched rhizosphere soils --- phosphate --- phytoremediation --- bacterial communities --- high-throughput sequencing --- Orchidaceae --- soil --- bacteria --- fungi --- microbiome --- heavy metal --- NGS --- azo dye --- textile --- wastewater --- diversity --- xenobiotics --- pollutant --- Nitrogen deposition --- soil biodiversity --- urban --- 16S rRNA --- wild-simulated ginseng --- Panax ginseng C.A. Meyer --- soil bacterial community --- soil property --- correlation analysis --- agricultural practices --- cultivar --- grafting --- interaction rootstock scion --- plant performance --- rhizosphere bacteria --- taxonomic indicators --- viticulture --- long-term fertilization --- next-generation sequencing --- bacterial diversity --- plant growth --- soil microbial community --- environmental factors --- soil contamination --- culture-independent analysis