Managing Microbially-mediated Nitrogen Cycling to Decrease Risk of Loss from Semi-arid Rainfed Agricultural Soils

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ISBN 13 :
Total Pages : pages
Book Rating : 4.:/5 (1 download)

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Book Synopsis Managing Microbially-mediated Nitrogen Cycling to Decrease Risk of Loss from Semi-arid Rainfed Agricultural Soils by : Louise Marjorie Fisk

Download or read book Managing Microbially-mediated Nitrogen Cycling to Decrease Risk of Loss from Semi-arid Rainfed Agricultural Soils written by Louise Marjorie Fisk and published by . This book was released on 2015 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: [Truncated] More efficient management of nitrogen (N) in agricultural soils is vital to maximise food supply and minimise losses of N to the environment. Nitrification is a key pathway of detrimental N loss, as nitrate and gaseous nitrous oxide are produced. In semi-arid soils, N cycling and nitrification is not well understood during summer fallow, an important period for N loss, as most research has instead focussed on N fertiliser management during the growing season. In order to better understand and manage N cycling in cropped semi-arid soils, this thesis investigated factors contributing to risk of N loss, as well as possible solutions to decrease the risk of loss. The close link between soil N and carbon (C) cycling suggested that solutions might be found through management of soil organic matter. Soil was used from a long-term field site in the northern grainbelt of Western Australia with a range of crop residue and tillage treatments (no tillage; no tillage with burnt stubble; tillage; tillage plus additional crop residue inputs; and tillage plus crop residues run-down) that altered soil organic matter content since 2003, allowing examination of N transformation pathways without confounding effects of differing soil types or climate. Firstly, steady-state N transformations and risk of N loss (defined as gross nitrification: immobilisation ratio) were examined, in response to a range of soil temperatures, root exudate C and field treatment (tilled soil and tilled soil plus crop residues), using 15N isotopic pool dilution and turnover of 14C-labelled substrates. Tilled soil plus crop residues had 76% more total C than tilled soil. Root exudates were effective at decreasing risk of N loss by stimulating microbial N immobilisation over nitrification. In comparison, management of N loss through additional crop residue inputs was unlikely to be effective, as increased soil organic matter enhanced the supply of both C and N substrates and N cycling overall. At temperatures above 30°C, net N mineralisation was associated with decreased microbial C use efficiency, likely contributing to increases in inorganic N pools during summer fallow.

Carbon and Nitrogen Cycling in Soil

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Publisher : Springer Nature
ISBN 13 : 9811372640
Total Pages : 498 pages
Book Rating : 4.8/5 (113 download)

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Book Synopsis Carbon and Nitrogen Cycling in Soil by : Rahul Datta

Download or read book Carbon and Nitrogen Cycling in Soil written by Rahul Datta and published by Springer Nature. This book was released on 2019-08-24 with total page 498 pages. Available in PDF, EPUB and Kindle. Book excerpt: Several textbooks and edited volumes are currently available on general soil fertility but‚ to date‚ none have been dedicated to the study of “Sustainable Carbon and Nitrogen Cycling in Soil.” Yet this aspect is extremely important, considering the fact that the soil, as the ‘epidermis of the Earth’ (geodermis)‚ is a major component of the terrestrial biosphere. This book addresses virtually every aspect of C and N cycling, including: general concepts on the diversity of microorganisms and management practices for soil, the function of soil’s structure-function-ecosystem, the evolving role of C and N, cutting-edge methods used in soil microbial ecological studies, rhizosphere microflora, the role of organic matter (OM) in agricultural productivity, C and N transformation in soil, biological nitrogen fixation (BNF) and its genetics, plant-growth-promoting rhizobacteria (PGPRs), PGPRs and their role in sustainable agriculture, organic agriculture, etc. The book’s main objectives are: (1) to explain in detail the role of C and N cycling in sustaining agricultural productivity and its importance to sustainable soil management; (2) to show readers how to restore soil health with C and N; and (3) to help them understand the matching of C and N cycling rules from a climatic perspective. Given its scope, the book offers a valuable resource for educators, researchers, and policymakers, as well as undergraduate and graduate students of soil science, soil microbiology, agronomy, ecology, and the environmental sciences. Gathering cutting-edge contributions from internationally respected researchers, it offers authoritative content on a broad range of topics, which is supplemented by a wealth of data, tables, figures, and photographs. Moreover, it provides a roadmap for sustainable approaches to food and nutritional security, and to soil sustainability in agricultural systems, based on C and N cycling in soil systems.

Carbon-mediated Ecological and Physiological Controls on Nitrogen Cycling Across Agricultural Landscapes

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ISBN 13 :
Total Pages : 0 pages
Book Rating : 4.4/5 (387 download)

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Book Synopsis Carbon-mediated Ecological and Physiological Controls on Nitrogen Cycling Across Agricultural Landscapes by : Andrew James Curtright

Download or read book Carbon-mediated Ecological and Physiological Controls on Nitrogen Cycling Across Agricultural Landscapes written by Andrew James Curtright and published by . This book was released on 2022 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt: The sustainable intensification of agriculture relies on the efficient use of ecosystem services, particularly those provided by the microbial community. Managing for these ecosystem services can improve plant yields and reduce off-site impacts. For instance, increasing plant diversity is linked to positive effects on yield, and these beneficial effects are often mediated by the microbial community and the nutrient transformations it carries out. My dissertation has aimed to elucidate the mechanisms by which plant diversity improves agricultural production. In particular, I have focused on how changes to the amount and diversity of carbon (C) inputs affects soil microorganisms involved in the nitrogen (N) cycle. My work spans multiple scales of observation: from a global meta-analysis to mechanistic studies utilizing denitrification as a model system.In a global meta-analysis, I found that increasing plant diversity through intercropping yields a net increase in extracellular enzyme activity. This effect varied by plant species and soil type suggesting that increases in the quality of nutrient inputs mediates these positive effects on microbial activity. Then, I looked at how intercropping cover crops into corn affects soil nutrient pools and microbial activities in a field experiment. No effect of interseeding cover crops into corn was found on soil nutrient pools or microbial activities. However, by analyzing differences in relationships between nutrient pools and microbial activities at two locations throughout Michigan, I was able to describe how the availability of dissolved organic C (DOC) drives differences in microbial N-cycling processes. I then investigated how C availability drives activity in microbial hotspots within the soil by comparing differences in denitrification potential in bulk soil versus the rhizospheres of corn and interseeded cover crops. Here, I found that denitrification rates were increased in the rhizospheres of all plant types, and this effect varied depending on the species of plant. I was able to further differentiate the impact of DOC and microbial biomass C on the rhizosphere effect and found that C availability was the primary driver of differences in denitrification rates between rhizospheres. Since plants provide many different forms of C to soil microbes, it is important to understand how the chemistry of C inputs affects microbial activity. I used a series of C-substrate additions to determine how C chemistry affects denitrifiers. I found that amino acids and organic acids tended to stimulate the most nitrous oxide (N2O) production and reduction. Although management and site affected overall rates of denitrification, C-utilization patterns of microbes were mostly similar between locations. To identify the mechanisms responsible for these effects, I performed a final experiment to track how denitrifiers utilized different C compounds. The C substrates that stimulated the most complete reduce of N2O also were utilized with the lowest C-use efficiency (CUE). This suggests possible trade-offs between N2O reduction and CUE, with important implications for how to manage microbial communities.Overall, my work demonstrates that land management can impact microbial community activity by influencing the identity of soil C inputs. While the importance of increasing soil C inputs has been known, this dissertation supports the notion that the chemical identity of C inputs can exert significant controls on microbial activity. Moreover, by comparing microbial traits I highlight the importance of trade-offs in how microbially mediated C- and N cycling are coupled.

15N Tracing of Microbial Assimilation, Partitioning and Transport of Fertilisers in Grassland Soils

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ISBN 13 : 9783030310585
Total Pages : 261 pages
Book Rating : 4.3/5 (15 download)

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Book Synopsis 15N Tracing of Microbial Assimilation, Partitioning and Transport of Fertilisers in Grassland Soils by : Alice Fiona Charteris

Download or read book 15N Tracing of Microbial Assimilation, Partitioning and Transport of Fertilisers in Grassland Soils written by Alice Fiona Charteris and published by . This book was released on 2019 with total page 261 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book presents innovative research on soil nitrogen cycling and nitrate leaching with a view to improving soil management and fertiliser nitrogen use efficiency and reducing nitrogen leaching losses. In this regard, nitrogen-15 (15N)-labelled fertiliser was used as a biochemical and physical stable isotope tracer in laboratory and field experiments. The major outcome of the research was the development, validation and application of a new compound-specific amino acid 15N stable isotope probing method for assessing the assimilation of fertiliser nitrogen by soil microbial biomass. The novelty of the method lies in its tracing of incorporated nitrogen into newly biosynthesised microbial protein in time-course experiments using gas chromatography-combustion-isotope ratio mass spectrometry. The approach provides previously unattainable insights into the microbial processing of different nitrogen fertilisers in different soils. Further, it identifies the mechanistic link between molecular-scale processes and observations of field-scale fertiliser nitrogen immobilisation studies. The method and the results presented here will have far-reaching implications for the development of enhanced recommendations concerning farm-based soil management practices for increasing soil productivity and reducing nitrogen losses, which is essential to minimising environmental impacts.

Plant-soil-microbial Nitrogen Cycling Across Contrasting Organic Farms in an Intensively-managed Agricultural Landscape

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ISBN 13 : 9781339260976
Total Pages : pages
Book Rating : 4.2/5 (69 download)

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Book Synopsis Plant-soil-microbial Nitrogen Cycling Across Contrasting Organic Farms in an Intensively-managed Agricultural Landscape by : Timothy Michael Bowles

Download or read book Plant-soil-microbial Nitrogen Cycling Across Contrasting Organic Farms in an Intensively-managed Agricultural Landscape written by Timothy Michael Bowles and published by . This book was released on 2015 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: How farming systems supply sufficient nitrogen (N) for high yields but with reduced N losses is a central challenge for reducing the tradeoffs often associated with N cycling in agriculture. This dissertation consists of three studies that assess how variability in organic farms across an agricultural landscape may yield insights for improving N cycling and for evaluating novel indicators of N availability. Pulses of N are common in agricultural systems and often result in N losses if N is not quickly captured by plants or soil microbes. But understanding of how root behavioral responses and microbial N dynamics interact following soil N pulses remains limited, especially in soil under field conditions relevant to actual agroecosystem processes. The first study examined rhizosphere responses to a soil N pulse in an organic farm soil. A novel combination of molecular and 15N isotopic techniques was used to investigate the response of tomato (Solanum lycopersicum L.) roots and soil N cycling to a pulse of inorganic N in an undisturbed soil patch on an organic farm. Tomato roots rapidly responded to and exploited the N pulse via upregulation of key N metabolism genes that comprise the core physiological response of roots to patchy soil N availability. The transient root gene expression response underscored the sensitivity of root N uptake to local N availability. Strong root activity limited accumulation of soil nitrate (NO3−) despite high rates of gross nitrification and allowed roots to out-compete soil microbes for uptake of the inorganic N pulse, even on the short time scale of a few days. Root expression of genes such as cytosolic glutamine synthetase, a key gene in root N assimilation, could serve as a "plant's eye view" of N availability when plant-soil N cycling is rapid, complementing more typical measures of N availability like soil inorganic N pools and bioassays of N mineralization potential. Much of the research geared toward improving N cycling takes place at research stations with fixed management factors and limited variation in soil characteristics. Better understanding of how the plant-soil-microbe interactions that underpin N availability, potential for N loss, and yields vary across working farms would help reveal how to simultaneously achieve high provisioning (yields) and regulating (low potential for N loss) ecosystem services in heterogeneous landscapes. A landscape approach was thus used in the second and third studies to assess crop yields, plant-soil N cycling, root gene expression, and soil microbial community activity and composition over the course of a tomato growing season on working organic farms in Yolo County, California, USA. The 13 selected fields were representative of organic tomato production in the local landscape and spanned a three-fold range of soil carbon (C) and N but had similar soil types, texture, and pH. Yields ranged from 22.9 to 120.1 Mg ha−1 with a mean similar to the county average (86.1 Mg ha−1), which included mostly conventionally-grown tomatoes. Substantial variability in soil inorganic N concentrations, tomato N, and root gene expression indicated a range of possible tradeoffs between yields and potential for N losses across the fields. Soil enzyme activities reflected distinct metabolic capacity in each field, such that soil C-cycling enzyme potential activities increased with inorganic N availability while those of soil N-cycling enzymes increased with soil C availability. Compared to potential enzyme activity, there was less variation in soil microbial community composition, likely reflecting the history of high soil disturbance and low ecological complexity in this landscape. The variation in potential activity of soil enzymes across the organic fields thus may be due to high plasticity of the resident microbial community to environmental conditions. Those fields in the landscape that showed evidence of tightly-coupled plant-soil N cycling, a desirable scenario in which high crop yields are supported by adequate N availability but low potential for N loss, had the highest total and labile soil C and N and received diverse types of organic matter inputs with a range of N availability. In these fields, elevated expression of cytosolic glutamine synthetase in roots (as evaluated in the first study), confirmed that plant N assimilation was high even when soil inorganic N pools were low. The on-farm approach provided a wide range of farming practices and soil characteristics to reveal how microbially-derived ecosystem functions can be effectively manipulated to enhance nutrient cycling capacity. Novel combinations of N cycling indicators (i.e. inorganic N along with soil microbial activity and root gene expression for N assimilation) would support adaptive management for improved N cycling on organic as well as conventional farms, and could overcome the uncertainty of managing N inputs accurately, especially when plant-soil N cycling is rapid.

Nitrogen Cycling in Ecosystems of Latin America and the Caribbean

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Publisher : Springer Science & Business Media
ISBN 13 : 9400976399
Total Pages : 414 pages
Book Rating : 4.4/5 (9 download)

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Book Synopsis Nitrogen Cycling in Ecosystems of Latin America and the Caribbean by : G. Philip Robertson

Download or read book Nitrogen Cycling in Ecosystems of Latin America and the Caribbean written by G. Philip Robertson and published by Springer Science & Business Media. This book was released on 2012-12-06 with total page 414 pages. Available in PDF, EPUB and Kindle. Book excerpt: The large and rapidly expanding body ofliterature related to nitrogen cycling in both managed and native terrestrial ecosystems reflects the importance accorded to the behaviour of this vital and often limiting nutrient. Research at the organism, ecosystem and landscape levels commonly addresses questions concerning nitrogen acquisition, internal cycling and retention. Goals for this research include increased agricultural productivity and a better understanding of human impact on local, regional and global nitrogen cycles. Nitrogen cycle research in tropical regions has a long and distinguished history. Research on different aspects of nitrogen cycling in ecosystems of the tropics has been carried out in many regions. In relatively few instances has there, however, been a focus on the biogeochemical cycles at the ecosystem level. The meeting resulting in this volume was an attempt to bring together existing information on nitrogen cycling in ecosystems of Latin America and the Caribbean and discuss this in an ecosystem context.

Controlling Nitrogen Flows and Losses

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Publisher : Brill Wageningen Academic
ISBN 13 :
Total Pages : 632 pages
Book Rating : 4.F/5 ( download)

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Book Synopsis Controlling Nitrogen Flows and Losses by : D. J. Hatch

Download or read book Controlling Nitrogen Flows and Losses written by D. J. Hatch and published by Brill Wageningen Academic. This book was released on 2004 with total page 632 pages. Available in PDF, EPUB and Kindle. Book excerpt: "This book is a synthesis of contributions drawn from the 12th Nitrogen Workshop held at the University of Exeter, UK. It provides a valuable compilation of current research, aimed at reconciling the environmental and economic components of N cycling within the context of a productive agricultural industry. The book is divided into seven main sections, which examine systematically, the nature of the problems associated with losses of N and a range of possible solutions. Section 1, 'Drivers towards sustainability-why change?' identifies the need to adopt new strategies to avoid losses to the environment. Section 2 considers the options for 'Matching supply with demand', followed by the reasons for, and means of 'Controlling losses to air' and to 'water' in section 3 and 4. Section 5 describes the challenges of 'Reconciling productivity with environmental considerations'. The remaining sections describe some mathematical models to assist the researcher, with the final section devoted to reports from the 'Themed Working Groups' which debated the following topical questions: Organic matter: does it matter, or can technology overcome most problems related to soil fertility? Optimising N additions: can we integrate fertilizer use and manure use? Controlling gaseous N emissions: what is achievable? Missing N: is the solution in dissolved N? Pollution problems: mitigation, or are we swapping one form of pollution for another? System studies: do we need them, or can they be replaced by desktop studies? Model answers: can we improve their level of confidence and applicability? This book will be of value to researchers, policy makers and all those wishing to promote more efficient use of N."

Fate and Transport of Nitrogen

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ISBN 13 :
Total Pages : 22 pages
Book Rating : 4.E/5 ( download)

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Book Synopsis Fate and Transport of Nitrogen by : Marvin James Shaffer

Download or read book Fate and Transport of Nitrogen written by Marvin James Shaffer and published by . This book was released on 1995 with total page 22 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Linking Carbon and Nitrogen Cycling to Plant-soil-microbial Interactions at the Field-, Soil Pedon-, and Micro-scales Within Long-term Conventional, Low-input, and Organic Cropping Systems

Download Linking Carbon and Nitrogen Cycling to Plant-soil-microbial Interactions at the Field-, Soil Pedon-, and Micro-scales Within Long-term Conventional, Low-input, and Organic Cropping Systems PDF Online Free

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ISBN 13 :
Total Pages : pages
Book Rating : 4.:/5 (51 download)

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Book Synopsis Linking Carbon and Nitrogen Cycling to Plant-soil-microbial Interactions at the Field-, Soil Pedon-, and Micro-scales Within Long-term Conventional, Low-input, and Organic Cropping Systems by :

Download or read book Linking Carbon and Nitrogen Cycling to Plant-soil-microbial Interactions at the Field-, Soil Pedon-, and Micro-scales Within Long-term Conventional, Low-input, and Organic Cropping Systems written by and published by . This book was released on 2009 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Despite the greatly increased productive capacity of current-day cropping systems, the shortcomings associated with conventional, high-intensity cropping systems and the growing threat of global climate change, warrant the identification of crop management practices that promote long-term agricultural sustainability and productivity. Unlike conventional cropping practices, which include synthetic nitrogen and pesticide use, alternative crop management practices, e.g., cover cropping, tillage reduction, organic amendment additions, and reducing or eliminating synthetic fertilizer use, have emerged as integrated and ecologically sound approaches to enhance agroecosystem functioning and services. Yet, mechanisms governing the differences in soil quality and crop yields among alternative cropping systems and conventional systems remain unclear. The aim of this dissertation study was to understand and quantify the mechanisms governing the relationship between carbon and nitrogen cycling and the interactions between plants, soil, and microorganisms within long-term conventional (annual synthetic fertilizer), low-input (alternating synthetic fertilizer and cover crop additions), and organic (annual manure- and cover crop additions) cropping systems, at the field-, soil pedon-, and micro-scales. A multi-scaled approach, including agronomic experiments, stable isotopes (13C and 15N), soil fractionation techniques, and microbiological analyses (e.g., functional gene quantification and phospholipid fatty acid assays), was employed to study mechanisms of soil carbon and nitrogen stabilization and loss and to draw links between microbial populations and carbon and nitrogen processing across different agroecosystems. Data from this research only partly corroborated the global hypothesis: the effects of long-term, low-input crop management enhance microbial-mediated carbon and nitrogen turnover in different soil microenvironments and optimize the balance between carbon and nitrogen stabilization and loss compared to the conventional and organic cropping systems. Only a weak relationship between short-term microbial community structure and long-term carbon and nitrogen sequestration was found across the three cropping systems. The conclusion drawn is that the effects of long-term crop management are dictated by complex trade-offs between soil carbon and nitrogen stabilization, microbial abundance and activity, nitrogen losses, crop productivity, and the quantity and quality of carbon and nitrogen inputs in alternative cropping systems.

Soil Nitrogen Cycle

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ISBN 13 :
Total Pages : 326 pages
Book Rating : 4.E/5 ( download)

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Book Synopsis Soil Nitrogen Cycle by : Water Resources Scientific Information Center

Download or read book Soil Nitrogen Cycle written by Water Resources Scientific Information Center and published by . This book was released on 1972 with total page 326 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Soil Nitrogen Ecology

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Publisher : Springer Nature
ISBN 13 : 3030712060
Total Pages : 560 pages
Book Rating : 4.0/5 (37 download)

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Book Synopsis Soil Nitrogen Ecology by : Cristina Cruz

Download or read book Soil Nitrogen Ecology written by Cristina Cruz and published by Springer Nature. This book was released on 2021-05-24 with total page 560 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book highlights the latest discoveries about the nitrogen cycle in the soil. It introduces the concept of nitrogen fixation and covers important aspects of nitrogen in soil and ecology such as its distribution and occurrence, soil microflora and fauna and their role in N-fixation. The importance of plant growth-promoting microbes for a sustainable agriculture, e.g. arbuscular mycorrhizae in N-fixation, is discussed as well as perspectives of metagenomics, microbe-plant signal transduction in N-ecology and related aspects. This book enables the reader to bridge the main gaps in knowledge and carefully presents perspectives on the ecology of biotransformations of nitrogen in soil.

Nitrogen Cycling and Transport Under Agricultural Managed Aquifer Recharge

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ISBN 13 :
Total Pages : 0 pages
Book Rating : 4.6/5 (624 download)

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Book Synopsis Nitrogen Cycling and Transport Under Agricultural Managed Aquifer Recharge by : Hannah Waterhouse

Download or read book Nitrogen Cycling and Transport Under Agricultural Managed Aquifer Recharge written by Hannah Waterhouse and published by . This book was released on 2020 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt: In semi-arid regions, including much of California, there is great interest amongst water management and conservation districts to implement agricultural managed aquifer recharge (AgMAR). AgMAR is a concept in which farmlands are leveraged to capture and recharge legally and hydrologically available flood waters to increase regional capacity for recharge to replenish the underlying aquifers and combat overdraft. The potential benefits of AgMAR, in addition to a more reliable future basin-wide water supply, include decreasing downstream flood risks by removing excess water from near flood stage rivers, reducing groundwater pumping costs by increasing groundwater levels, flushing salts from the rooting zone, increasing water storage in the root zone, improving ecosystem health of groundwater dependent ecosystems, and mitigating land subsidence. When flooding farmland for groundwater recharge, of particular concern is the potential for AgMAR to exacerbate nitrate (NO3−) contamination of already at-risk aquifers. Nitrate, when ingested, has been linked to methaemoglobinaemia, or "blue baby syndrome", miscarriages, and non-Hodgkin's lymphoma. Thus, it is necessary to determine if implementing AgMAR increases the risk of transporting residual NO3− below the root zone, as well as legacy NO3− accumulated in the vadose zone, into aquifers used for drinking water. This dissertation focuses on understanding how to mitigate NO3− contamination to groundwater under AgMAR implementation. First, I identified the crops and soils with the lowest potential risk of NO3− loading to groundwater when considering AgMAR. Cores down to 9 m were taken on both permeable and less permeable soils within almond, grape, and tomato cropping systems and stored-NO3− -N within each system were determined. Considerations for historical and current nutrient and water management under AgMAR are discussed as well and discussion is targeted toward stakeholders, including growers, water managers, and policy makers considering AgMAR. Next, I explored the mineralization potential, denitrification capacity, and denitrification potential for subsurface soils and sediments. Denitrification represents a permanent sink to the underlying aquifer and would be a positive outcome of AgMAR implementation. Using the acetylene incubation method, denitrification potential (glucose and NO3− addition) and denitrification capacity (no glucose or NO3− addition) were determined for vadose zone sediment samples to a depth of 9 m. The denitrification potential assays (addition of glucose and NO3−) resulted, on average, in over 108% to 175% of NO3− being reduced to N2O across all layers. Denitrification capacity, the ability of the sediment to denitrify without the addition of glucose or NO3− , resulted in 19-133% of NO3− being reduced to N2O. Across all depths, net immobilization was found on incubations of post-AgMAR soil samples, which represents a delay in NO3− arrival to the underlying aquifer. Finally, chapter 4 examines the transport and transformation of NO3− under varying management of AgMAR and across differing vadose zone heterogeneities using a reactive transport model, TOUGHREACT. Results show that silt loams are important features in the deep subsurface for creating reducing zones where denitrification can occur via both heterotrophic and chemolithoautotrophic pathways. Furthermore, applying floodwaters all at once increased denitrification compared to applying floodwaters incrementally, however, higher concentrations of NO3− moved faster and to further depths when water was applied all at once. Additionally, wetter antecedent moisture conditions while promoting denitrification more readily, increased the depths to which NO3− leached compared to drier antecedent moisture conditions. Thus the geologic heterogeneity, depth to the water table, and antecedent moisture conditions should be considered when applying floodflows for AgMAR. Further work is needed on how varying management practices, such as cover cropping, could retain residual soil NO3− and increase leached dissolved organic carbon to the subsurface to promote denitrification.

Nitrogen Fixation in Agriculture, Forestry, Ecology, and the Environment

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Publisher : Springer Science & Business Media
ISBN 13 : 9781402035425
Total Pages : 380 pages
Book Rating : 4.0/5 (354 download)

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Book Synopsis Nitrogen Fixation in Agriculture, Forestry, Ecology, and the Environment by : Dietrich Werner

Download or read book Nitrogen Fixation in Agriculture, Forestry, Ecology, and the Environment written by Dietrich Werner and published by Springer Science & Business Media. This book was released on 2005-10-24 with total page 380 pages. Available in PDF, EPUB and Kindle. Book excerpt: Sustainability has a major part to play in the global challenge of continued development of regions, countries, and continents all around the World and biological nitrogen fixation has a key role in this process. This volume begins with chapters specifically addressing crops of major global importance, such as soybeans, rice, and sugar cane. It continues with a second important focus, agroforestry, and describes the use and promise of both legume trees with their rhizobial symbionts and other nitrogen-fixing trees with their actinorhizal colonization. An over-arching theme of all chapters is the interaction of the plants and trees with microbes and this theme allows other aspects of soil microbiology, such as interactions with arbuscular mycorrhizal fungi and the impact of soil-stress factors on biological nitrogen fixation, to be addressed. Furthermore, a link to basic science occurs through the inclusion of chapters describing the biogeochemically important nitrogen cycle and its key relationships among nitrogen fixation, nitrification, and denitrification. The volume then provides an up-to-date view of the production of microbial inocula, especially those for legume crops.

Soil Microbial Biomass

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Publisher :
ISBN 13 : 9780853102038
Total Pages : 20 pages
Book Rating : 4.1/5 (2 download)

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Book Synopsis Soil Microbial Biomass by : Sylvie Recous

Download or read book Soil Microbial Biomass written by Sylvie Recous and published by . This book was released on 2005-01-01 with total page 20 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Nitrogen Cycling in West African Ecosystems

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Publisher :
ISBN 13 :
Total Pages : 468 pages
Book Rating : 4.3/5 (91 download)

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Book Synopsis Nitrogen Cycling in West African Ecosystems by : Thomas Rosswall

Download or read book Nitrogen Cycling in West African Ecosystems written by Thomas Rosswall and published by . This book was released on 1980 with total page 468 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Nitrogen Cycling in South-East Asian Wet Monsoonal Ecosystems

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Publisher :
ISBN 13 :
Total Pages : 232 pages
Book Rating : 4.E/5 ( download)

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Book Synopsis Nitrogen Cycling in South-East Asian Wet Monsoonal Ecosystems by : Robert Wetselaar

Download or read book Nitrogen Cycling in South-East Asian Wet Monsoonal Ecosystems written by Robert Wetselaar and published by . This book was released on 1981 with total page 232 pages. Available in PDF, EPUB and Kindle. Book excerpt: Rice; Plantation systems; Natural communities; Legumes & casuarina; Environmental problems; Modelling & methodology; Rainwater; Work group reports; Authors & participants.

Nitrogen Cycle

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Publisher : CRC Press
ISBN 13 : 1000352315
Total Pages : 484 pages
Book Rating : 4.0/5 (3 download)

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Book Synopsis Nitrogen Cycle by : Jesus Gonzalez-Lopez

Download or read book Nitrogen Cycle written by Jesus Gonzalez-Lopez and published by CRC Press. This book was released on 2021-07-23 with total page 484 pages. Available in PDF, EPUB and Kindle. Book excerpt: Anthropogenic activity has clearly altered the N cycle contributing (among other factors) to climate change. This book aims to provide new biotechnological approach representing innovative strategies to solve specific problems related to the imbalance originating in the N cycle. Aspects such as new conceptions in agriculture, wastewater treatment, and greenhouse gas emissions are discussed in this book with a multidisciplinary vision. A team of international authors with wide experience have contributed up-to-date reviews, highlighting scientific principles and their environmental importance and integrating different biotechnological processes in environmental technology.