Auswahl der wissenschaftlichen Literatur zum Thema „Sustainable soil management“

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Zeitschriftenartikel zum Thema "Sustainable soil management"

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Shrestha, Shiva Kumar. „Sustainable soil management practices“. World Journal of Science, Technology and Sustainable Development 12, Nr. 1 (05.01.2015): 13–24. http://dx.doi.org/10.1108/wjstsd-07-2014-0015.

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Purpose – Temporary and permanent decline in the productive capacity of the land due to natural and human-induced activities such as soil erosion, changing cropping practices and less use of organic matter (OM) has been the greatest challenge faced by mankind in recent years, particularly in the hills and mountains of Nepal. Hence, the purpose of this paper is to examine the effectiveness of sustainable soil management practices to mitigate desertification process in the hills of Nepal. Design/methodology/approach – Promotion of sustainable soil management (SSM) practices through a decentralised agriculture extension approach by involving all the stakeholders in a participatory way. Findings – SSM practices mainly: OM management, fodder and forage promotion, increased biomass production systems, integrated plant nutrition systems, and bioengineering for soil and water conservation are identified as the most appropriate and relevant technologies in mitigating the desertification process without deteriorating land quality, particularly conserving the top-soils effectively and efficiently in the hills and mountains of the country. Research limitations/implications – This research is focus on the overall effect of SSM practices due to time and budget constraints. There is scope for doing research on the different aspects of SSM practices and the extent of their effect on different soil parameters (chemical, biological and physical). Practical implications – SSM interventions clearly indicated that there is significant impact in increasing soil fertility, conserving fertile top-soils and mitigating physical, chemical and biologic desertification processes. These are possible through maintaining and improving the soil organic matter, which is the most important indicator for soil health. SSM practices have resulted in an increase of up to 30 per cent in crop yield compared to yields without SSM practices. This might be due to the improvement in SOC which improves soil texture, increases nutrient supply from organic source and conserves water quality, thus, improving soil quality. Social implications – This has created awareness among farmers. Hence, farmers are mitigating pH through increased use of organic manures, where there is less availability of agriculture lime and they are far from road access. Originality/value – SSM practices significantly contributes to combat soil desertification in the hills of Nepal.
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Kumar, Kewat Sanjay. „Sustainable Management of Soil for Carbon Sequestration“. Science & Technology Journal 5, Nr. 2 (01.07.2017): 132–40. http://dx.doi.org/10.22232/stj.2017.05.02.10.

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Mechanisms governing carbon stabilization in soils have received a great deal of attention in recent years due to their relevance in the global carbon cycle. Two thirds of the global terrestrial organic C stocks in ecosystems are stored in below ground components as terrestrial carbon pools in soils. Furthermore, mean residence time of soil organic carbon pools have slowest turnover rates in terrestrial ecosystems and thus there is vast potential to sequester atmospheric CO2 in soil ecosystems. Depending upon soil management practices it can be served as source or sink for atmospheric CO2. Sustainable management systems and practices such as conservation agriculture, agroforestry and application of biochar are emerging and promising tools for soil carbon sequestration. Increasing soil carbon storage in a system simultaneously improves the soil health by increase in infiltration rate, soil biota and fertility, nutrient cycling and decrease in soil erosion process, soil compaction and C emissions. Henceforth, it is vital to scientifically explore the mechanisms governing C flux in soils which is poorly understood in different ecosystems under anthropogenic interventions making soil as a potential sink for atmospheric CO2 to mitigate climate change. Henceforth, present paper aims to review basic mechanism governing carbon stabilization in soils and new practices and technological developments in agricultural and forest sciences for C sequestration in terrestrial soil ecosystems.
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Helming, Katharina, Katrin Daedlow, Bernd Hansjürgens und Thomas Koellner. „Assessment and Governance of Sustainable Soil Management“. Sustainability 10, Nr. 12 (27.11.2018): 4432. http://dx.doi.org/10.3390/su10124432.

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The globally increasing demand for food, fiber, and bio-based products interferes with the ability of arable soils to perform their multiple functions and support sustainable development. Sustainable soil management under high production conditions means that soil functions contribute to ecosystem services and biodiversity, natural and economic resources are utilized efficiently, farming remains profitable, and production conditions adhere to ethical and health standards. Research in support of sustainable soil management requires an interdisciplinary approach to three interconnected challenges: (i) understanding the impacts of soil management on soil processes and soil functions; (ii) assessing the sustainability impacts of soil management, taking into account the heterogeneity of geophysical and socioeconomic conditions; and (iii) having a systemic understanding of the driving forces and constraints of farmers’ decision-making on soil management and how governance instruments may, interacting with other driving forces, steer sustainable soil management. The intention of this special issue is to take stock of an emerging interdisciplinary research field addressing the three challenges of sustainable soil management in various geographic settings. In this editorial, we summarize the contributions to the special issue and place them in the context of the state of the art. We conclude with an outline of future research needs.
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Hou, Deyi. „Biochar for sustainable soil management“. Soil Use and Management 37, Nr. 1 (Januar 2021): 2–6. http://dx.doi.org/10.1111/sum.12693.

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White, Philip J., John W. Crawford, María Cruz Díaz Álvarez und Rosario García Moreno. „Soil Management for Sustainable Agriculture“. Applied and Environmental Soil Science 2012 (2012): 1–3. http://dx.doi.org/10.1155/2012/850739.

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Lal, Rattan. „Laws of sustainable soil management“. Agronomy for Sustainable Development 29, Nr. 1 (März 2009): 7–9. http://dx.doi.org/10.1051/agro:2008060.

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Nortcliff, Stephen. „Soil management in sustainable agriculture“. Environmental Pollution 92, Nr. 1 (1996): 103–4. http://dx.doi.org/10.1016/s0269-7491(96)90040-8.

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Rounsevell, MDA. „Soil management in sustainable agriculture“. Global Environmental Change 6, Nr. 3 (Juli 1996): 251. http://dx.doi.org/10.1016/0959-3780(96)82722-1.

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Siwik-Ziomek, Anetta, und Anna Figas. „Soil Management for Sustainable Agriculture“. Agriculture 15, Nr. 3 (06.02.2025): 345. https://doi.org/10.3390/agriculture15030345.

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Montanarella, Luca. „Soils and the European Green Deal“. Italian Journal of Agronomy 15, Nr. 4 (21.12.2020): 262–66. http://dx.doi.org/10.4081/ija.2020.1761.

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Soils play a central role in achieving sustainable development. The new European Green Deal is addressing all policy areas relevant to sustainable soil management: climate change, biodiversity, agriculture and desertification, including sustainable water management, are necessarily at the core of the European policies. Consistently addressing soil protection across these different policy areas will be the major challenge in front of us in the next years. Highlights - Soils play a central role in achieving the goals of the European Green Deal. - Sustainable soil management is a cross-cutting issue relevant to several policy areas addressed by the European Green Deal, such as climate change, biodiversity, agriculture, food safety. - Human health and wellbeing are closely connected with soil health and sustainable soil management.
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Dissertationen zum Thema "Sustainable soil management"

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Moloto, K. P. „The potential of sustainable agricultural practices to enhance soil carbon sequestration and improve soil quality“. Thesis, Stellenbosch : University of Stellenbosch, 2010. http://hdl.handle.net/10019.1/4257.

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Thesis (MPhil (Sustainable Development, Planning and Management))--University of Stellenbosch, 2010.
ENGLISH ABSTRACT: Sustainable agricultural management practices have a profound impact on soil carbon sequestration. The amount of carbon that can be stored in a given soil is influenced by climate, soil type, and the quality and quantity of organic inputs. Together, the interactive effect of these factors determines the Soil Organic Content (SOC). Sustainable agricultural management practices influencing Soil Organic Matter (SOM) include application of organic amendments, conservation tillage, and use of cover crops, crop rotations, crop residue management, and nutrient management. Increasing SOC enhances soil quality, reduces soil erosion, and increases agricultural productivity with considerable on-farm and off-farm benefits. To assess how management practices affect SOC, two case studies were conducted in Yavatmal district of Maharashtra in India and Lynedoch near Stellenbosch. The first case study examined the differences in SOC content on four farms each managed with 13 different sustainable agricultural techniques and one farm managed under conventional management practices. The second case study investigated the SOC differences between an organic and a conventional vegetable farm. The results of both studies show that farms that are managed under sustainable agricultural practices generally contain higher SOC content than farms that are managed under conventional agricultural practices.
AFRIKAANSE OPSOMMING: Om te bepaal hoe bestuurspraktyke Grondlikke Organise Koolstoff raak, is twee gevallestudies in die distrikte Yavatmal in Maharashtra, Indië, en Lynedoch buite Stellenbosch uitgevoer. Die eerste gevallestudie het die verskille in Grondlikke Organise Koolstoff -inhoud bekyk op vier plase waar 13 verskillende Volhoubare landboubestuurspraktyke het ‟n diepgaande impak op grondkoolstof-beslaglegging. Die hoeveelheid koolstof wat binne gegewe grond gestoor kan word, word deur klimaat, grondsoort en die gehalte en hoeveelheid organiese toevoer beïnvloed. Saam bepaal die interaktiewe effek van vermelde faktore die Grondlikke Organise Koolstoff -inhoud. Volhoubare landboubestuurspraktyke wat Grondlikke Organise Materiaal beïnvloed, sluit in die toediening van organiese verbeterings, bewaringsgrondbewerking, die gebruik van dekkingsoeste, oesrotasies, die hantering van oesresidu en voedingstofbestuur. Vermeerdering van Grondlikke Organise Koolstoff verhoog grondgehalte, verminder gronderosie en vermeerder landbouproduktiwiteit met aansienlike voordele op en verwyderd van die plaas. volhoubare landboutegnieke in die bestuurproses toegepas word, en een plaas wat volgens konvensionele bestuurspraktyke bedryf word. Met die tweede gevallestudie is ondersoek gedoen na die Grondlikke Organise Koolstoff -verskille tussen ‟n organiese en ‟n konvensionele groenteplaas. Die uitslae van albei studies dui daarop dat plase wat volgens volhoubare landboupraktyke bestuur word oor die algemeen hoër Grondlikke Organise Koolstoff-inhoud aantoon in vergelyking met plase wat volgens konvensionele landboupraktyke bedryf word.
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Martinez, Vila, und Martin Alvaro. „Environmental management of soil biodiversity and ecosystems for productive and sustainable agriculture“. Thesis, Sumy State University, 2008. http://essuir.sumdu.edu.ua/handle/123456789/11773.

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It is well-known that there is a need for technical assessments to advise farmers, policy-makers and planners on indicators and methods for the assessment and monitoring of soil health and functions. These should focus on improving knowledge: on the roles and importance of diverse soil organisms in providing key goods and services; and on the positive and negative impacts of existing and new agricultural technologies and management practices.
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Nadimi-Goki, Mandana <1983&gt. „Investigation of soil health and sustainable management in rice-based production systems“. Doctoral thesis, Università Ca' Foscari Venezia, 2014. http://hdl.handle.net/10579/5637.

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Interest in evaluating soil quality in agricultural systems has been developed since improper soil and crop management decisions can result in resource degradation, and subsequently detrimental changes in soil functions. A wide range of soil attributes including physical, chemical and biological properties were measured in the paddy fields of the Veneto region, Italy over the 2012 growing season (i.e. in April after field preparation, field moist condition; June mid-tillering, the early period of waterlogging; August panicle formation, the late period of waterlogging; October after harvesting, drained soil condition). The paddy soils were under four different rotation systems (rice-rice-rice: R-R-R; soya-rice-rice: S-R-R; fallow-rice: F-R; pea-soya-rice: P-S-R) and three replications. Soil quality was evaluated using three different soil quality indices, namely: an additive index, a weighted additive index and systematic soil quality index, by integrating indicator scores (linear and non-linear) obtained either by expert opinion or principal component analysis. Another part of field and laboratory experiments were conducted at the International Rice Research Institute, research farm in Los Baños, Philippines, to evaluate the effect of three rotation systems (i.e. flooded rice – non-flooded rice, flooded rice – flooded rice, flooded rice – maize) and four fertilizer treatments (i.e. conventional N management, no rice residues; zero N, no rice residues; conventional N management, with rice residues; zero N, with rice residues) on some soil indicators, in order to have a comparison between two different environmental conditions. All soil quality indices proved to be suitable for assessing the effects of various cropping patterns on soil functions. However, almost all SQ indices obtained based on the non-linearly scored PCA-MDS proved to be significantly better than the other SQ indices calculated by other methods in evaluating soil quality. The results of stepwise regression highlighted that extractable phosphorous (mg kg-1), β-glucosidase, and water filled pore space were the main factors limiting 2011-2012 rice yield when using the EO-MDSs as the independent variable, whereas the 2010 yield was strongly explained by the scored PCA-MDSs including AWC, Zn, CEC and chitinase. In general, for most indexing method combinations, P-S-R rotation received statistically higher SQI values than the other rotation systems. However, the results of systematic soil quality index based on non-linear scoring method showed that S-R-R yielded the highest SQI, followed by F-R, R-R-R and P-S-R. We suggest, therefore, that rice cultivation with alternating leguminous crops (e.g. pea, soybean) could result in higher overall soil quality than monoculture crop or fallow-rice rotation. Our observations associated with the results of paddy fields in IRRI indicated that both the cropping patterns and fertilizer treatments had a significant impact on the most measured soil quality indicators. It seems that flooded rice-flooded rice cropping systems and conventional N fertilizer management have a higher soil health condition than other treatments. Our experiments demonstrate that the best management practice should be selected based on environmental conditions and particularly climate. However, further indicators should be measured to calculate the soil quality index value in order to understand the real soil health condition in the study area.
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Stimson, Dawn M. „IMPLEMENTATION OF SUSTAINABLE MANAGEMENT PRACTICES AT TWO CALIFORNIA CENTRAL COAST VINEYARDS AND THEIR EFFECTS ON SOIL FERTILITY“. DigitalCommons@CalPoly, 2009. https://digitalcommons.calpoly.edu/theses/187.

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Implementation of Sustainable Management Practices at Two California Central Coast Vineyards and Their Effects on Soil Fertility Dawn Michelle Stimson “Sustainable agriculture” has gained increased popularity in recent years. This study was conducted to determine the effects of sustainable management practices on soil fertility at two California Central Coast vineyards. The effects of cover crops (Erosion Control Mix - blando brome [Bromus hordeaceus], hykon rose clover [Trifolium hirtum All.], and zorro annual fescue [Vulpia mourns]), green waste compost (Forest Blend), and reduced tillage on soil fertility were investigated in San Luis Obispo, California on a clay and sandy loam soil. Between the fall 2007 and spring 2008, which had a low precipitation amount (13.3 & 15.6 inches), there was a significant difference (P <0.001 to 0.007) between vineyards in terms of their mean soil nutrient and ratio concentrations. The range of soil values (soil pH, P, K, exchangeable Ca, Mg, and K, OM, Ca/Mg and C/N ratios) was either completely separate or different between Vineyard One and Two. There was almost no significant difference found between treatments and their effects on soil nutrients, exchangeable cations, and ratios. However, there were some noticeable effects on soil nutrients, exchangeable cations and ratios. Soil P and K concentrations increased in most areas (except cover crop/till where it decreased slightly). Soil P increases ranged from 14 to 143% while potassium increases ranged from 9 to 78%. Soil OM increased in all areas at both vineyards (5 to 55%). Ca/Mg ratios increased in some areas between 8 and 43%. C/N ratios increased in all areas between 5 and 85%. Soil type appears to affect soil nutrients, exchangeable cations, and ratios more than sustainable management practices. Keywords: Sustainable, vineyard, and soil nutrients.
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Dittmer, Kyle Michael. „Mitigating Gaseous Nitrogen and Carbon Losses from Northeastern Agricultural Soils via Alternative Soil Management Practices“. ScholarWorks @ UVM, 2019. https://scholarworks.uvm.edu/graddis/1161.

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Traditional agricultural practices often result in gaseous losses of nitrous oxide (N2O), ammonia (NH3), and carbon dioxide (CO2), representing a net loss of nutrients from agricultural soils, which negatively impacts crop yield and requires farmers to increase nutrient inputs. By adopting best management practices (BMPs; i.e., no-tillage, cover crops, sub-surface manure application, and proper manure application timing), there is great potential to reduce these losses. Because N2O and CO2 are also greenhouse gases (GHGs), climate change mitigation via BMP adoption and emissions reductions would be an important co-benefit. However, adopting a no-tillage and cover cropping system has had setbacks within the Northeast, primarily due to concerns regarding manure nitrogen (N) losses in no-tillage systems as well as uncertainty surrounding the benefits of cover crops. This thesis used two field-trials located in Alburgh, Vermont to assess differences in (i) GHG emissions from agricultural soils, (ii) nitrate and ammonium retention, (iii) corn yield and protein content, and (iv) N uptake and retention via cover crop scavenging under a combination of different BMPs. Chapter 1 evaluates the effects of different reduced-tillage practices and manure application methods (i.e., vertical-tillage, no-tillage, manure injection, and broadcast manure application) on reducing N2O and CO2 emissions, retaining inorganic N, and improving crop yields. Greenhouse gas measurements were collected every other week for the growing season of 2015-2017 via static chamber method using a photoacoustic gas analyzer. Results from this study showed that tillage regimes and manure application method did not interact to affect any of the three research objectives, although differences between individual BMPs were observed. Notably, vertical tillage enhanced CO2 emissions relative to no-tillage, demonstrating the role of soil disturbance and aeration on aerobic microbial C transformations. Manure injection was found to significantly enhance both N2O and CO2 emission relative to broadcast application, likely due to the formation of anerobic micro-zones created from liquid manure injection. However, plots that received manure injection retained greater concentrations of soil nitrate, a vital nutrient for quality crop production, thereby highlighting a major tradeoff between gaseous N losses and N retention with manure injection. Chapter 2 evaluates the effects of tillage practices and timing of manure application to increase N retention with the use of cover crops in order to mitigate GHG emissions, enhance soil nitrate and ammonium retention, and improve cropping system N uptake. Treatments at this field trial consisted of a combination of the presence or absence of cover crops, no-tillage or conventional-tillage, and spring or fall manure application. Greenhouse gas emissions were measured every other week via static chamber method using a gas chromatograph for the growing season of 2018. Results from this study showed that the presence of cover crops enhanced both N2O and CO2 emissions relative to fallow land, irrespective of tillage regime and manure application season, likely as a result of greater N and carbon substrates entering the soil upon cover crop decomposition. Due to enhanced N2O emissions with cover crops, cover crops did not retain significantly greater inorganic N in the system upon termination.
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Brattgård, Nils. „Sustainable stormwater management in Stockholm's inner city“. Thesis, KTH, Urbana och regionala studier, 2021. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-298539.

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Much like other cities Stockholm has traditionally used a technical system for managing stormwater. With time this system has become overburdened and has led to large environmental concerns. To reach water quality goals set by the EU Stockholm needs to decrease pollution released to recipients by 70-80%.  Green infrastructure (GI) has increasingly been used as an alternative and addition to technical stormwater systems. Many studies have been conducted on different solutions and their stormwater management performance. The City of Stockholm have done research on numerous solutions to evaluate their performance in the context of Stockholm as well. However, implementation in the inner city is slow, thus this study explores why this is the case, and how Stockholm’s stormwater management goals can be reached. Stockholm predominately uses trees planted in plant beds using structural soil, and a combination of constructed wetlands and wet ponds for stormwater management. In new developments there is no real concern, as the GI can be included in planning at an early stage. Including these solutions in existing environments causes issues related to space, both above and below ground, and costs. Therefore, other solutions need to be found. This study explored green roofs, green walls and permeable pavements as possible options. Additionally, it found that finding new space that has previously not been used for GI could be an option. To mitigate financing issues new ways of promoting investment into GI from private property owners could be utilized, but that there also is a mismatch between supposed support for sustainable stormwater management on the political side and funds allocated. Finally, the study recommends that Stockholm takes the technical systems into account and explores what GI measures best work together with it to more effectively decrease pollution.
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Deniston-sheets, Holly M. „Short Term Shifts in Soil Nematode Food Feb Structure and Nutrient Cycling Following Sustainable Soil Management in a California Vineyard“. DigitalCommons@CalPoly, 2019. https://digitalcommons.calpoly.edu/theses/2021.

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Evaluating soil health using bioindicator organisms has been suggested as a method of analyzing the long-term sustainability of agricultural management practices. The main objective of this study was to determine the effects of vineyard management strategies on soil food web structure and function, using nematodes as bioindicators by calculating established nematode ecological indices. Three field trials were conducted in a commercial Pinot Noir vineyard in San Luis Obispo, California; the effects of (i) fertilizer type (organic and inorganic), (ii) weed management (herbicide and tillage), and (iii) cover crops (high or low water requirements) on nematode community structure, soil nutrient content, and crop quality and yield were analyzed. Overall, although nematode ecological indices indicated that all plots had disturbed soil food webs, the indices proved to be less useful for measuring subtle differences in soil management over the short-term than anticipated. They showed few differences treatments. In general, the most pronounced differences were seen by sample location (under the vine or in the tractor row) and sample date, rather than treatment. None of the evaluated strategies affected crop quality, although fertilizer had a slight effect on yield. However, several indices were correlated with soil chemical parameters, including pH, nitrogen, carbon, and, to a lesser extent, EC. These results indicate that while nematode indices can be useful for comparing the state of the soil food web under long-term soil conditions, they may not be a robust measure of how agricultural management practices change soil health over a single growing season.
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Camarotto, Carlo. „Sustainable land management practices in the low-lying Venetian plain: relationship to soil ecosystem services“. Doctoral thesis, Università degli studi di Padova, 2019. http://hdl.handle.net/11577/3424694.

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Sustainable land management (SLM) practices, as conservation agriculture (CA) and conventional tillage with cover crops (CC), aimed at balancing competitive agricultural production and environmental protection, have been encouraged throughout the EU through policy and subsidisation. Adoption of SLM practices that regulate biogeochemical cycles, however, requires further study, especially given the effects of local pedo-climatic variability and because middle and long-term effects are not fully understood and may differ from short-term outcomes. For these reasons, in this work, field experiments were conducted in three farms in the low-lying venetian plain, characterized by loamy soils, where CA and CC were compared to conventional intensive tillage system (CV) on trials established since 2010. The first objective of the thesis was to evaluate, by integrating experimental field results with model predictions, the potential ecosystem services provided by CA and CC practices on SOC dynamic, air quality and climate regulation, nutrition biomass and regulating of water conditions. In this experiment, CA and CC results contrasted according to the soil functions, the ecosystem service category and evaluation time span. The former was more effective in providing regulating services in the short term, and less consistent in the long term, at least for GHG mitigation. GHG control is only one of the numerous ecosystem services provided by conservation practices (e.g. reduction of erosion and P particulate loss). Many of these depend on the C content which are strongly affected by the C stratification processes. Cover crop adoption, on the contrary, showed promise in the long term, whereas short-term outcomes (two-year experiment) were negatively affected by poor cover crop growth. The second objective aimed to assess the SOC stock variation due to the adoption of CA and CC in comparison to CV within a large sample (i.e., 240) of 0-50-cm soil profiles, comparing two expansive soil sampling operations conducted in 2011 and 2017. The study showed that CA enhances SOC stratification rather than SOC accumulation, with high topsoil SOC that may have partly counteracted soil surface compaction. However, a comparison with previous SOC stock quantifications between CA and CV after three years of the experiment suggests that some SOC stock increase occurred, even at 50 cm, despite being not significant. The burial of fresh biomass-C with cover crops in arable systems (CC) enhanced SOC stock depletion most likely due to priming effects, suggesting that C input management is pivotal for its accumulation in agroecosystems with low soil fertility and low SOC protection capacity.
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Giussani, A. „INTEGRATED TERRITORIAL APPROACH FOR SUSTAINABLE AGRICULTURE: NITROGEN MANAGEMENT AND SOIL CARBON SEQUESTRATION IN LOMBARDY REGION“. Doctoral thesis, Università degli Studi di Milano, 2014. http://hdl.handle.net/2434/233255.

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In the last years, intensive agriculture and high concentration of livestock activities have become two important environmental concerns, being partially responsible of nitrogen pollution and CO2 emissions caused by carbon loss from soil. That’s particularly true in Lombardy region, due to the presence of more than 27% of cattle and 51% of pigs of the national livestock and due to the extent of area devoted to cereal cropping (about 63% of the utilized agricultural area - UAA). It is also to be remarked that cereals in Lombardy are commonly grown in continuous cropping systems. In this context, the aim to encourage sustainable agriculture led European Union to introduce regulations (e.g. Nitrates Directive 91/676/EEC), to define mandatory standards, and measures (Common Agricultural Policy), to promote the implementation of best management practices. Consequently, assessing the potential effects of different policies, prior to their introduction, has become very important. Several methods (direct measurements, simulation models, simple and composite indicators) have been developed and applied by traditional agronomic research, however there is still a need of up-scaling experimental results from the farm to the landscape scale. Moreover, it has to be taken into account that the impact of these measures also depends on the interaction between type of action, pedo-climatic factors and farm characteristics. An effective tool for territorial management and planning is then particularly needed in Lombardy, since the territorial approaches, supported by robust methodologies (e.g., extensive databases, models and geographical information systems (GIS)), have become more and more central in European policies. The aim of this work is to assess and investigate the important outcomes of a more territorially based approach, analysing the most important environmental issues, related to agriculture in Lombardy: manure management, nitrogen leaching and carbon sequestration by soils. Three examples of tools and applications are presented: i) Decision Support System (DSS) ValorE, to analyse and to evaluate manure management and technological alternatives, available for the entire supply chain from animal feed to the distribution in the field; ii) application of the ARMOSA cropping system simulation model to assess the potential risk of nitrate leaching towards groundwater in 3 Nitrate Vulnerable Zones (NVZs); iii) application of ARMOSA to evaluate carbon sequestration capacity of regional soils, under current and alternative scenarios, focusing the attention on the impact of different spread levels of conservation agriculture. The territorial approach proposed in this thesis, was based on robust methodologies, extensive databases, stand-alone models (e.g. ARMOSA), more complex structures (ValorE DSS) and GIS techniques. All these components led this approach to be an effective solution for investigating and supporting the regional agricultural management, as well as for assessing the potential impact of the regional policies, always keeping in mind that agricultural sector plays a key role in the climate change mitigation and in the environmental protection from biodiversity loss and from N pollution.
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Hörner, Denise [Verfasser]. „The Role of Extension and Sustainable Soil Management in Smallholder Agriculture - Evidence from Ethiopia / Denise Hörner“. Göttingen : Niedersächsische Staats- und Universitätsbibliothek Göttingen, 2020. http://d-nb.info/1218299185/34.

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Bücher zum Thema "Sustainable soil management"

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Mandal, Nintu, Abir Dey und Rajiv Rakshit. Soil Management For Sustainable Agriculture. Boca Raton: Apple Academic Press, 2022. http://dx.doi.org/10.1201/9781003184881.

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Kunst, Sabine, Tanja Kruse und Andrea Burmester, Hrsg. Sustainable Water and Soil Management. Berlin, Heidelberg: Springer Berlin Heidelberg, 2002. http://dx.doi.org/10.1007/978-3-642-59390-1.

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Kunst, Sabine. Sustainable Water and Soil Management. Berlin, Heidelberg: Springer Berlin Heidelberg, 2002.

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Sabine, Kunst, Kruse Tanja 1971- und Burmester Andrea 1970-, Hrsg. Sustainable water and soil management. Berlin: Springer, 2002.

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5

Fahad, Shah, Shah Saud, Fazli Wahid und Muhammad Adnan. Biofertilizers for Sustainable Soil Management. Boca Raton: CRC Press, 2023. http://dx.doi.org/10.1201/9781003286233.

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Magdoff, Fred. Building soils for better crops: Sustainable soil management. 3. Aufl. Beltsville, MD: Sustainable Agriculture Research and Education Program, 2009.

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Magdoff, Fred. Building soils for better crops: Sustainable soil management. 3. Aufl. Beltsville, MD: Sustainable Agriculture Research and Education Program, 2009.

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1958-, Van Es Harold, und Sustainable Agriculture Research & Education (Program), Hrsg. Building soils for better crops: Sustainable soil management. 3. Aufl. Beltsville, MD: Sustainable Agriculture Research and Education Program, 2009.

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Rees, R. M., B. C. Ball, C. D. Campbell und C. A. Watson, Hrsg. Sustainable management of soil organic matter. Wallingford: CABI, 2001. http://dx.doi.org/10.1079/9780851994659.0000.

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Nair, Kodoth Prabhakaran. Intelligent Soil Management for Sustainable Agriculture. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-15530-8.

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Buchteile zum Thema "Sustainable soil management"

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Stagnari, Fabio, Angelica Galieni, Sara D’Egidio, Giancarlo Pagnani und Michele Pisante. „Sustainable Soil Management“. In Innovations in Sustainable Agriculture, 105–31. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-23169-9_5.

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Lal, Rattan. „Laws of Sustainable Soil Management“. In Sustainable Agriculture, 9–12. Dordrecht: Springer Netherlands, 2009. http://dx.doi.org/10.1007/978-90-481-2666-8_2.

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Sanivada, Santosh Kumar, Venkata Smitha Pandurangi und Murali Mohan Challa. „Nanofertilizers for Sustainable Soil Management“. In Sustainable Agriculture Reviews, 267–307. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-58496-6_10.

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Hannam, Ian. „Sustainable Soil Management and Soil Carbon Sequestration“. In International Yearbook of Soil Law and Policy 2022, 3–33. Cham: Springer International Publishing, 2024. http://dx.doi.org/10.1007/978-3-031-40609-6_1.

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AbstractGlobally, food systems are associated with many unsustainable land use practices that lead to environmental damage such as greenhouse gas emissions, land degradation and biodiversity loss. Social issues, such as poor labour conditions, receive ever greater attention as farming has often been associated with practices that harm humans and society. From an economic standpoint, food systems need to be viable and resilient in order to allow operators in the food chain to make a living from their work. The importance of a global shift towards sustainable land use and food production has been commonly accepted for some time and there is an increasing interest by enterprises in the food and agriculture sector in assessing their sustainability performance. As the world has become increasingly vulnerable to the impacts of changing climate so too has the urgency to establish national and international guidelines and rules to acknowledge carbon management in agricultural supply chains and to improve the policy, strategic and legislative systems to manage soil carbon sequestration. An essential aspect of improved carbon management is legislation which has the ability to enable the development and implementation of soil organic carbon land management practices as sustainable soil standards.
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Cotching, William E., und Leigh A. Sparrow. „Sustainable Soil Management for Potatoes“. In Sustainable Potato Production: Global Case Studies, 281–94. Dordrecht: Springer Netherlands, 2012. http://dx.doi.org/10.1007/978-94-007-4104-1_16.

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Yadav, Sarita K., und Ruchi Soni. „Integrated Soil Fertility Management“. In Soil Fertility Management for Sustainable Development, 71–80. Singapore: Springer Singapore, 2019. http://dx.doi.org/10.1007/978-981-13-5904-0_5.

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Kaliappan, Sathiya Bama, Yazhini Gunasekaran, R. Smyrna und Ram Swaroop Meena. „Soil and Environmental Management“. In Sustainable Management of Soil and Environment, 1–27. Singapore: Springer Singapore, 2019. http://dx.doi.org/10.1007/978-981-13-8832-3_1.

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Altomare, Claudio, und Ivanka Tringovska. „Beneficial Soil Microorganisms, an Ecological Alternative for Soil Fertility Management“. In Sustainable Agriculture Reviews, 161–214. Dordrecht: Springer Netherlands, 2011. http://dx.doi.org/10.1007/978-94-007-1521-9_6.

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Safriel, Uriel N., Pedro Berliner, Ariel Novoplansky, Jonathan B. Laronne, Arnon Karnieli, Itzhak Moshe, A. Kharabsheh, A. Ghaleb Mohammad und G. Kusek. „Soil Erosion-Desertification and the Middle Eastern Anthroscapes“. In Sustainable Land Management, 57–124. Berlin, Heidelberg: Springer Berlin Heidelberg, 2010. http://dx.doi.org/10.1007/978-3-642-14782-1_3.

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Nair, Kodoth Prabhakaran. „Land Management for Sustainable Agriculture“. In Intelligent Soil Management for Sustainable Agriculture, 131–59. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-15530-8_15.

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Konferenzberichte zum Thema "Sustainable soil management"

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Abuthahir Riazulhameed, Arshadh Ariff Mohamed, Chitra Sabapathy Ranganathan, Pramod Pandey, Sakthisaravanan B, K. Sasikala und S. Murugan. „Smart Composting Solutions for Organic Waste Management and Soil Enrichment in Agriculture with IoT and Gradient Boosting“. In 2024 4th International Conference on Sustainable Expert Systems (ICSES), 339–45. IEEE, 2024. https://doi.org/10.1109/icses63445.2024.10763259.

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Faloye, Funmibi Adedamola, und Oluwaseun Temitope Faloye. „Evaluation of Cyclic Wetting-Drying Frequency, Land Management History on Soil Hydro Physical Properties“. In 2024 International Conference on Science, Engineering and Business for Driving Sustainable Development Goals (SEB4SDG), 1–6. IEEE, 2024. http://dx.doi.org/10.1109/seb4sdg60871.2024.10630020.

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Cerdà, Artemi, und Enric Terol. „SUSTAINABLE AGRICULTURE MANAGEMENTS TO CONTROL SOIL EROSION“. In 3rd Congress in Geomatics Engineering. Valencia: Universitat Politècnica de València, 2021. http://dx.doi.org/10.4995/cigeo2021.2021.13258.

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High rates of soil erosion compromise sustainable agriculture. In rainfed agricultural fields, erosion rates several orders ofmagnitude higher than the erosion rates considered tolerable have been quantified. In Mediterranean rainfed crops suchas vineyards, almonds and olive groves, and in the new sloping citrus and persimmon plantations, the rates of soil lossmake it necessary to apply measures to reduce them to avoid collapse in agricultural production. Managements such asweeds, catch crops and mulches (straw and pruning remains) are viable options to achieve sustainability. This work appliesmeasurements through plots, simulated rainfall experiments and ISUM (Improved Stock-Unearhing method) to quantifythe loss of soil at different temporal and spatial scales in fields of traditional management (herbicide or tillage) and underalternative management (mulches and plant covers). The work carried out at the experimental station for the study of soilerosion in the Sierra de Enguera and those of Montesa and Les Alcusses provide information on erosion plots undernatural rain. Experiments carried out with simulated rain in fields of olive, almond, citrus, persimmon, vineyard and fruittrees report the hydrological and erosive response under low frequency and high intensity rains. And finally, the ISUMtopographic method report the impact of long-term management, from the plantation. The results indicate that the loss ofsoil is greater (x10-1000) in soils under traditional management (tillage and herbicide) due to the fact that they remain barefor most of the year. The use of straw mulch immediately reduces soil erosion by two orders of magnitude. Also mulchesfrom chipped pruned branches remains are very efficient but require more years to reduce soil loss. Weeds and catchcrops are very efficient in controlling erosion.
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Okolelova, Alla, und Galina Egorova. „THE FACTORS INCREASING THE OBJECTIVE ASSESSMENT OF OIL PRODUCTS IN SOIL“. In Land Degradation and Desertification: Problems of Sustainable Land Management and Adaptation. LLC MAKS Press, 2020. http://dx.doi.org/10.29003/m1716.978-5-317-06490-7/235-240.

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Natural objective reasons significantly complicate the objective assessment of oil products in soils: a variety of chemical forms of the pollutants connection, the soil ability to self-healing and self-cleaning, provincial features of the soil cover, lack of objective criteria.To increase the objectivity of determining the presence of oil products in soils, it is proposed to take into account the following factors: analysis methods of soils contaminated with oil products, the chemical properties of extractants extracting oil products from soil samples, the content of soil organic carbon and nonspecific organic compounds in conditionally unpolluted and oil-polluted soils, an increase in organic carbon in soils contaminated with petroleum products, units of measurement (% or mg / kg), the soil horizonin which soil samples were taken, the presence of discrepancies in GOST standards on the standardization of pollutants of organic origin in soils, the state of modern rationing of oil and oil products in soils and the terminological aspect.
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Al-Kaisi, Mahdi. „Building soil health for sustainable agriculture systems“. In Proceedings of the 24th Annual Integrated Crop Management Conference. Iowa State University, Digital Press, 2015. http://dx.doi.org/10.31274/icm-180809-190.

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„Soil fertility management for sustainable plant production in Malaysia“. In Role of Healthy Soil-Plant Interactions towards Achieving Resilient Agriculture in the Asian and Pacific Region. Food and Fertilizer Technology Center for the Asian and Pacific Region, 2022. http://dx.doi.org/10.56669/jtgf1109.

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Rusakov, Aleksey, Yulia Simonova, Aleksandr Ryumin, A. Popov und Natalya Lemeshko. „ESTIMATION OF THE FERTILITY OF AGRICULTURAL SOILS IN THE NORTHERN PART OF THE YAROSLAVSK REGION AND TRENDS OF THEIR EVOLUTIONARY CHANGES FOR A 30-YEAR POST AGROGENIC PERIOD BASED ON THE SOIL- ECOLOGICAL INDEX“. In Land Degradation and Desertification: Problems of Sustainable Land Management and Adaptation. LLC MAKS Press, 2020. http://dx.doi.org/10.29003/m1681.978-5-317-06490-7/81-86.

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The assessment of the agricultural production potential of the soils of the former arable lands was carried out on the basis of the updated soil-ecological index. It was revealed that among the agrosoils of Poshekhonsk district, soils with 20-39 points prevail, which generally indicates low and medium levels of potential soil fertility in the studied area in the late perestroika period. Comparison of morphological and genetic properties of soils for the period 1988-1990 and for 2019 showed the trends of their evolutionary changes. Multidirectional trends in the transformation of soil properties, developed on a contrasting lithogenic parent rocks, with a change in land use during the last 30-35-year period have been established. In loamy soils, stable hydromorphism features are observed everywhere, degradation processes prevail, expressed in dehumification, a sharp depletion of mobile forms of mineral nutrition elements of plants and, in some cases, acidification of humus postagrogenic horizons. It has been established that fallow soils on loamy parent material are characterized by a noticeable (by 1.1-1.9 times) decrease in the values of soil-ecological index in comparison with their arable state. On the contrary, in soils of light particle size distribution, the dominant processes are due to an increase in humus content and a decrease in acidity. The specificity of postagrogenic evolution and the emergence of new soil properties should be taken into account when performing soil-agroecological assessments and forecasting agricultural production potential against the background of changed climatic conditions.
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RÉCKY, Roman, und Jarmila HORVÁTHOVÁ. „ECOLOGICAL AGRICULTURE AS A FORM OF SUSTAINABLE ENTREPRENEURSHIP ON SOIL“. In 10th International Conference on Management. Mendelova univerzita v Brně, 2021. http://dx.doi.org/10.11118/978-80-7509-820-7-0071.

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Popov, Aleksandr, A. Rusakov, Yulia Simonova und K. Tsivka. „ASSESSMENT AND DIAGNOSTIC INDICATORS OF ORGANIC MATTER QUALITATIVE COMPOSITION OF YAROSLAVL VOLGA REGION POST-AGROGENIC SOILS AGAINST THE BACKGROUND OF MODERN CLIMATE CHANGES“. In Land Degradation and Desertification: Problems of Sustainable Land Management and Adaptation. LLC MAKS Press, 2020. http://dx.doi.org/10.29003/m1702.978-5-317-06490-7/169-175.

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The purpose of this work was to characterize the postagrogenic transformation of soil organic matter (SOM). For decision of this purpose the results of chemodestructive fractionation (CDF), the content of chlorophylls a and b , pheophetins and carotenoids, and Margalef's pigment index (PI) were used newly. Subjects of inquiry-humus horizons of soils of arable lands and fallow areas of Poshekhonsky district of the Yaroslavl region of the Russian Federation-were stitch together into two groups with differ in the type of land use. In one of them, the soils remained arable for 30-40 years (arable-arable group), in the other - the soils of arable land for the same time period were transferred to the fallow (arable-fallow group). It was found that increasing the soil water content of fallow plots compared to arable soils can lead: to improved livelihoods of the soil algocenoses (the value of PI Margalef decreased) to increase the carbon content of organic compounds, to increase the number legkomyslenno fraction in the organic component of soil, increased hydrolytic processes that reduce the content of carotenoids and chlorins (in particular, pheophytinand chlorophylls a and b) in SOM composition. Thus, results of CDF and content of chlorophylls a and b , pheophetins and carotenoids can be used to assess the postagrogenic transformation of SOM, and Margalef's PI-to characterize soil algocenosis.
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Volokitin, Mitrofan. „PHYSICAL DEGRADATION OF SOILS DURING THEIR USE“. In Land Degradation and Desertification: Problems of Sustainable Land Management and Adaptation. LLC MAKS Press, 2020. http://dx.doi.org/10.29003/m1712.978-5-317-06490-7/218-222.

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The issues related to the degradation of agrophysical parameters of soils are considered. The studies were carried out on gray forest soils of the northern forest-steppe. The assessment of the degree of degradation of the water resistance of the macrostructure of soils during their agricultural use has been carried out. The relationship between the bulk density and the lowest moisture capacity, inter-aggregate cohesion and the filtration coefficient of gray forest soil has been established. Soil losses during thawed runoff were estimated.
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Berichte der Organisationen zum Thema "Sustainable soil management"

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Paz, A., W. Vervuurt, J. de Haan, H. Spiegel, C. Carranca, J. Miloczki, C. Gonçalves et al. Towards climate-smart sustainable management of agricultural soils : Deliverable 2.1 Synthesis of the impacts of sustainable soil management practices in Europe. European Joint Programme Soil, 2021. http://dx.doi.org/10.18174/588412.

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Dilley, Craig A., und Gail R. Nonnecke. Sustainable Weed Management Systems to Improve Soil Quality in Midwest Viticulture. Ames: Iowa State University, Digital Repository, 2006. http://dx.doi.org/10.31274/farmprogressreports-180814-734.

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Keesstra, S. D., L. Munkholm, S. Cornu, S. M. Visser, J. H. Faber, P. J. Kuikman, M. Thorsoe et al. Towards climate-smart sustainable management of agricultural soils : Deliverable 2.4 Roadmap for the European Joint Programme SOIL. EJP Soil, 2021. http://dx.doi.org/10.18174/630375.

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Keesstra, S. D., Lars Munkholm, Sophie Zechmeister-Boltenstern, Arezoo Taghizadeh-Toosi, Maria Knadel, Trine Nørgaard, Emmanuel Arthur et al. Towards climate-smart sustainable management of agricultural soils : Deliverable D2.6 Set of reports on State of knowledge in agricultural soil management. EJP Soil, 2021. http://dx.doi.org/10.18174/563872.

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Keesstra, S. D., Miro Jacob, Peter Maenhout, S. J. E. Verzandvoort, Greet Ruysschaert, Sigbert Huber, Bettina Schwarzl et al. Towards climate-smart sustainable management of agricultural soils : Deliverable 2.5 Report on identified regional, national and European aspirations on soil services and soil functions. EJP Soil, 2021. http://dx.doi.org/10.18174/563874.

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Keesstra, S. D., Anna Jacobs, Chiara Piuccini, Dario Fornara, Eloïse Mason, Frédéric Vanwindekens Vanwindekens, Frederik Bøe et al. Towards climate-smart sustainable management of agricultural soils : Deliverable 2.7 Report on the current availability and use of soil knowledge. EJP Soil, 2021. http://dx.doi.org/10.18174/563850.

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Kistner, Erica. A Field Day to the Long Term Agricultural Research Site. USDA Midwest Climate Hub, Oktober 2016. http://dx.doi.org/10.32747/2016.6957454.ch.

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Soil erosion is quickly becoming a severe problem throughout the Midwest and the situation is predicted to worsen unless more sustainable management practices are adopted. Management practices like reduced tillage and cover crops are recommended to help present soil erosion, enhance soil quality, and reduce greenhouse gas emissions.
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Kistner, Erica. A Field Day to the Long Term Agricultural Research Site, Hamilton County, IA. Ames, Iowa: United States Department of Agriculture, Midwest Climate Hub, Februar 2018. http://dx.doi.org/10.32747/2018.6592637.ch.

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Soil erosion is quickly becoming a severe problem throughout the Midwest and the situation is predicted to worsen unless more sustainable management practices are adopted. Management practices like reduced tillage and cover crops are recommended to help present soil erosion, enhance soil quality, and reduce greenhouse gas emissions.
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Rodrigues, Leonor, Julia Fohrafellner, Brieuc Hardy, Bruno Huyghebaert, Jens Leifeld, J. P. Lesschen, P. J. Kuikman und T. Slier. Towards climate-smart sustainable management of agricultural soils : Deliverable 2.3 Synthesis on estimates of achievable soil carbon sequestration on agricutural land across Europe. EJP Soil, 2021. http://dx.doi.org/10.18174/563830.

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Pavlu, L., L. Sobocka, L. Boruvka, V. Penizek, B. Adamczyk, A. Baumgarten, I. V. Castro et al. Towards climate-smart sustainable management of agricultural soils : Deliverable 2.2 Stocktaking on soil quality indicators and associated decision support tools, including ICT tools. EJP Soil, 2021. http://dx.doi.org/10.18174/563875.

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