Improving the Accuracy of Nitrogen Application and Removal Measurements in Manure Based Cropping Systems to Reduce Environmental Losses PDF Download
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Author: Christine M.F. Miller
Publisher:
ISBN: 9781658413411
Category :
Languages : en
Pages :
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Book Description
Sustainable forage farming systems must precisely match nitrogen (N) applications to crop needs to minimize environmental N losses and meet crop yield goals. Successfully executing N management plans is especially challenging in manure fertilized cropping systems because manure is highly variable and contains a large proportion of organic N. To reduce N leaching to groundwater, California dairy farmers must limit the ratio of N applied to N removed from cropland (N Ratio) to 1.4. Farmers quantify their N application rates by sampling and analyzing the N concentration of their manures, and by measuring the weight or volume of manure when it is applied. This dissertation quantifies the extent and impacts of uncertainty in N application and removal measurements in manure based forage cropping systems. These measurements must be accurate enough to identify N Ratios that will support crop yields while preventing excess N leaching to groundwater. The validity of the data collected by dairy farmers to quantify their N application and removal rates was investigated using mass balance analysis in Chapter 2. First, the N, phosphorus (P), and potassium (K) excreted by cattle on 62 facilities was modeled and compared with the amount of nutrients recovered in manures exported off-farm or applied to cropland. Less N and P were recovered than expected given possible volatile losses during storage. Second, reported N Ratios were compared with N Ratios that simulated unavoidable environmental losses over three cropping years. Analyses showed that reported N application rates were too low to maintain reported crop yields. Overall, reported data was not consistent with mass balance analysis indicating substantial inaccuracies in measurements of N application and removal. The uncertainty in farmer measurements of the N removed in harvested forage and the N concentration of solid manure was quantified in Chapters 3 and 4, respectively. The N harvested from 9 forage fields and the N concentration of 10 solid manure piles to was intensively measured to estimate the 'true' value. Resampling simulations were used to assess the accuracy of less intensive measurement protocols relative to the 'true' value. Measurements of N removed in harvested forage were accurate within ±5% if every truckload of forage was weighed and 10 grab samples were composited for nutrient analysis. Measurements of N concentration of solid manure were accurate within ±10% if 10 grab samples were composited for nutrient analysis and 70% of samples were collected from greater than 40 cm into the manure pile. The uncertainty of total N application, N Ratios, and groundwater nitrate leaching rates was quantified in Chapter 5. A stochastic model of total N application was built using Monte Carlo methods to propagate the uncertainty from underlying measurements. The stochastic N application model was used to vary the N applications of two representative forage fields around farmer reported values for 5 years. The N Ratios and groundwater nitrate loading rates were simulated for the stochastic N application scenarios using HYDRUS 1D water and solute transport model and compared to monitoring well measurements. Results suggested that reducing uncertainty in process wastewater measurements is required to meaningfully judge the effectiveness of N Ratio limitations and reduce N losses to groundwater. Greater measurement accuracy of manure N application is required before nitrate leaching to groundwater can be further reduced. This dissertation provides many practical suggestions for efficiently improving the accuracy of N application and removal measurements in manure based cropping systems. Measurements that quantify N application must be accurate enough to identify and execute suggested management improvements before we will be able to reliably reduce environmental N losses.
Author: Christine M.F. Miller
Publisher:
ISBN: 9781658413411
Category :
Languages : en
Pages :
Get Book Here
Book Description
Sustainable forage farming systems must precisely match nitrogen (N) applications to crop needs to minimize environmental N losses and meet crop yield goals. Successfully executing N management plans is especially challenging in manure fertilized cropping systems because manure is highly variable and contains a large proportion of organic N. To reduce N leaching to groundwater, California dairy farmers must limit the ratio of N applied to N removed from cropland (N Ratio) to 1.4. Farmers quantify their N application rates by sampling and analyzing the N concentration of their manures, and by measuring the weight or volume of manure when it is applied. This dissertation quantifies the extent and impacts of uncertainty in N application and removal measurements in manure based forage cropping systems. These measurements must be accurate enough to identify N Ratios that will support crop yields while preventing excess N leaching to groundwater. The validity of the data collected by dairy farmers to quantify their N application and removal rates was investigated using mass balance analysis in Chapter 2. First, the N, phosphorus (P), and potassium (K) excreted by cattle on 62 facilities was modeled and compared with the amount of nutrients recovered in manures exported off-farm or applied to cropland. Less N and P were recovered than expected given possible volatile losses during storage. Second, reported N Ratios were compared with N Ratios that simulated unavoidable environmental losses over three cropping years. Analyses showed that reported N application rates were too low to maintain reported crop yields. Overall, reported data was not consistent with mass balance analysis indicating substantial inaccuracies in measurements of N application and removal. The uncertainty in farmer measurements of the N removed in harvested forage and the N concentration of solid manure was quantified in Chapters 3 and 4, respectively. The N harvested from 9 forage fields and the N concentration of 10 solid manure piles to was intensively measured to estimate the 'true' value. Resampling simulations were used to assess the accuracy of less intensive measurement protocols relative to the 'true' value. Measurements of N removed in harvested forage were accurate within ±5% if every truckload of forage was weighed and 10 grab samples were composited for nutrient analysis. Measurements of N concentration of solid manure were accurate within ±10% if 10 grab samples were composited for nutrient analysis and 70% of samples were collected from greater than 40 cm into the manure pile. The uncertainty of total N application, N Ratios, and groundwater nitrate leaching rates was quantified in Chapter 5. A stochastic model of total N application was built using Monte Carlo methods to propagate the uncertainty from underlying measurements. The stochastic N application model was used to vary the N applications of two representative forage fields around farmer reported values for 5 years. The N Ratios and groundwater nitrate loading rates were simulated for the stochastic N application scenarios using HYDRUS 1D water and solute transport model and compared to monitoring well measurements. Results suggested that reducing uncertainty in process wastewater measurements is required to meaningfully judge the effectiveness of N Ratio limitations and reduce N losses to groundwater. Greater measurement accuracy of manure N application is required before nitrate leaching to groundwater can be further reduced. This dissertation provides many practical suggestions for efficiently improving the accuracy of N application and removal measurements in manure based cropping systems. Measurements that quantify N application must be accurate enough to identify and execute suggested management improvements before we will be able to reliably reduce environmental N losses.
Author:
Publisher:
ISBN:
Category : Agricultural chemicals
Languages : en
Pages : 352
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Book Description
Author:
Publisher:
ISBN:
Category : Agricultural innovations
Languages : en
Pages : 606
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Book Description
Author: Sohan S Prihar
Publisher: CRC Press
ISBN: 9781560228813
Category : Technology & Engineering
Languages : en
Pages : 298
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Book Description
Explore new concepts for maximizing crop yields! Intensive Cropping: Efficient Use of Water, Nutrients, and Tillage is a compilation of current information on the interdependence of and synergies among water, nutrients, and energy in regard to increasing crop performance. This book explains the need for intensive cropping and explores the technologies and practices necessary for proper management of water, nutrients, and energy. With Intensive Cropping you will learn how to improve the quantity of the world's most important crops using methods that will minimize harm to the environment. This essential guide is a state-of-the-art account of the concepts and practices concerning the integrated use of water, nutrients, and energy in intensive cropping. Intensive Cropping combines basic and applied aspects of soil-water, nutrients, and energy management to help you optimize your crop yields and maximize the efficiency of intensively farmed regions. In Intensive Cropping, you will explore the need for extreme farming and related concerns and concepts, including: reducing runoff, deep seepage, and evaporation losses supplementing irrigation with surface and ground water understanding the process of water uptake and its effects on root dynamics and water use reducing leaching, erosion, and gasseus losses in your fields using combinations of organic manures, crop residues, chemical fertilizers, and biofertilizers for soil maintenance implementing conventional and emerging tillage systems, such as conservation tillage for improving soil quality examining case studies of contrasting edaphic requirements of rice-wheat systems Intensive Cropping brings you up-to-date on recent advances in the field, supported by relevant experimental observations on environmentally safe and effective ways to increase crop performance. By examining this new research on increasing crop production, you will be able to successfully increase crop yields in various climates and support the growing global demand for such resources.
Author: J. Galloway
Publisher: CRC Press
ISBN: 9789026519277
Category : Science
Languages : en
Pages : 1042
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Book Description
The production of food and energy interfere with the natural nitrogen cycle of the earth. Many of these changes are beneficial, while others are detrimental to societies and the environment. The changing nature of nitrogen in the global environment crosses scientific disciplines, geographical boundaries and political divisions and challenges the creative minds of natural and social scientists, economists, engineers, business leaders and planners. The papers in this book give readers a panoramic view of the changing nature of reactive nitrogen in the global environment, enabling them to make better choices about nitrogen management in food production and consumption, energy production and use, and environmental protection.
Author: R. Nieder
Publisher: Springer Science & Business Media
ISBN: 1402084331
Category : Science
Languages : en
Pages : 434
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Book Description
Carbon and Nitrogen in the Terrestrial Environment is a comprehensive, interdisciplinary description of C and N fluxes between the atmosphere and the terrestrial biosphere; issues related to C and N management in different ecosystems and their implications for the environment and global climate change; and the approaches to mitigate emission of greenhouse gases. Drawing upon the most up-to-date books, journals, bulletins, reports, symposia proceedings and internet sources documenting interrelationships between different aspects of C and N cycling in the terrestrial environment, Carbon and Nitrogen in the Terrestrial Environment fills the gap left by most of the currently available books on C and N cycling. They either deal with a single element of an ecosystem, or are related to one or a few selected aspects like soil organic matter (SOM) and agricultural or forest management, emission of greenhouse gases, global climate change or modeling of SOM dynamics.
Author:
Publisher:
ISBN:
Category : Environmental engineering
Languages : en
Pages : 570
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Book Description
Author: United States. Congress. Senate. Committee on Appropriations. Subcommittee on Agriculture, Rural Development, and Related Agencies
Publisher:
ISBN:
Category :
Languages : en
Pages : 1928
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Book Description
Author:
Publisher:
ISBN:
Category : Environmental engineering
Languages : en
Pages : 592
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Book Description
Author: OECD
Publisher: OECD Publishing
ISBN: 9264186212
Category :
Languages : en
Pages : 185
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Book Description
Provides comprehensive data and analysis on the environmental performance of agriculture in OECD countries since 1990, covering soil, water, air and biodiversity and looking at recent policy developments in all 34 countries.
