The Importance Of Intra Management Practice Variability In Phosphorus And Total Solids Losses From Agricultural Fields

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The Importance of Intra-management Practice Variability in Phosphorus and Total Solids Losses from Agricultural Fields

Author : Melissa Danielle Miller
Publisher :
ISBN 13 :
Total Pages : pages
Book Rating : 4.:/5 (18 download)

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Book Synopsis The Importance of Intra-management Practice Variability in Phosphorus and Total Solids Losses from Agricultural Fields by : Melissa Danielle Miller

Download or read book The Importance of Intra-management Practice Variability in Phosphorus and Total Solids Losses from Agricultural Fields written by Melissa Danielle Miller and published by . This book was released on 2018 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Eutrophication and sedimentation are persistent issues in the Chesapeake Bay Watershed. Best management practices (BMPs), such as no-till and shallow-disk manure injection, are promising solutions to reduce nutrient and sediment losses to water bodies. However, field studies seeking to quantify the effectiveness of shallow-disk injection as a P mitigation strategy are often constrained by hydrologic variability across spatial and temporal scales. There is an increased need to understand how BMP effectiveness is affected by site-specific conditions in order to better target BMP implementation to areas where they will be most effective. This thesis focuses on characterizing and explaining variability in total solids (TS) and phosphorus (P) losses from twelve experimental plots in central Pennsylvania (PA). The overall objective was to understand the underlying causes of variability in P and TS losses from these plots to provide greater context for understating the effectiveness of shallow-disk injection versus broadcasting. The first chapter assesses variability in the transport dynamics of dissolved P (DP), total P (TP), particulate P (PP), and TS losses from these agricultural plots. It employs load-discharge (L-Q) analyses and CVC/CVQ ratios to examine differences in transport characteristics among manure application methods and among plots of the same manure application method. Shallow-disk injection was found to be more effective than broadcasting in promoting dilution of DP, and to a lesser extent, TP. In contrast, PP showed stronger dilution patterns in broadcast plots than injection plots. There was no difference between application methods for TS. Variability among plots within each manure application practice was largely dependent on relative contributions of overland and subsurface flow. Overall, shallow-disk injection appears to be an effective practice to reduce DP and TP losses while maintaining the erosion-reducing benefits of no-till.The second chapter is focused on understanding which soil, landscape, and hydrologic characteristics play more dominant roles in driving P loss from these plots. Multiple linear regression was used to describe how manure application practices interact with soil and landscape characteristics and predict overland and subsurface P exports. On average, injection plots exported 65% less DP and 48% less TP in overland flow and 81% less DP and 51% less TP in subsurface flow, with almost no differences in PP exports. The multiplicative effects of flow and Mehlich-3 P were the most effective predictors of P losses via both overland and subsurface flow, and unstratified (0-15 cm) measures of Mehlich-3 P concentrations were more or as effective as stratified (0-5 cm and 5-15 cm) concentrations in predicting losses in overland flow. While, soil and landscape characteristics, like soil texture and curvature, often provided additional predictive power. The results of this analysis revealed that shallow-disk injection is effective in reducing P losses and may be effective in preventing P build-up in soils without prior history of manure application.These two studies highlight the importance of understanding site hydrology and management practices as primary drivers of P losses from agricultural fields. Extensively monitored plots such as these provide a unique opportunity to study the effects of BMPs, such as shallow-disk injection, on a small scale, allowing for the assessment of variability among individual units. This work suggests that shallow-disk injection is an effective practice to reduce DP losses by reducing P source availability on the soil surface but does not exacerbate PP losses.

Evaluating the Impacts of Climate and Stacked Conservation Practices on Nutrient Loss from Legacy Phosphorus Agricultural Fields

Author : Rachelle Leah Crow
Publisher :
ISBN 13 :
Total Pages : 0 pages
Book Rating : 4.:/5 (135 download)

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Book Synopsis Evaluating the Impacts of Climate and Stacked Conservation Practices on Nutrient Loss from Legacy Phosphorus Agricultural Fields by : Rachelle Leah Crow

Download or read book Evaluating the Impacts of Climate and Stacked Conservation Practices on Nutrient Loss from Legacy Phosphorus Agricultural Fields written by Rachelle Leah Crow and published by . This book was released on 2022 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt: Agricultural nutrient loss in the Western Lake Erie Basin (WLEB) leads to elevated nutrient levels in Lake Erie, resulting in harmful algal blooms and anoxic conditions, decreased fish populations, and reduced recreation and tourism revenues. To combat this issue, the Ohio Phosphorus Task Force set a goal to decrease the phosphorus (P) load to the WLEB by 40% from 2008 spring loads. To meet this goal, efforts are underway to minimize the amount of P transported from agricultural fields to surface water using best management practices (BMPs). While many BMPs aim to decrease P loss by optimizing agricultural nutrient usage, some fields continue to have elevated soil test phosphorus (STP) levels even when nutrients have not been applied for decades. These fields, referred to as legacy P fields, contain more P within the soil profile than agronomically necessary and have substantial nutrient runoff potential. Because these sites disproportionately contribute to nutrient runoff, it is important to determine what variables impact and how best to manage nutrient loss from legacy P fields. Rainfall depth and intensity have been identified as driving factors causing P runoff from fields within agronomic STP levels. Better knowledge of the impact of precipitation and temperature on runoff from legacy P fields will improve management to minimize nutrient loss from these unique settings. This is especially valuable information as production and water quality management adaptations are made in reaction to climate change. To determine how weather variability impacts P runoff from legacy P fields, water quality and water quantity data was collected at 11 fields with Mehlich-3 P STP > 100 mg/kg in northwest Ohio for a total of 18.5 site-years, during which time 477 storm events each with > 6.35 mm (0.25 in) of precipitation were monitored. This study found that average nutrient concentrations within tile discharge from legacy P fields were 2.4 times (total P; TP) and 4-5 times (dissolved reactive P; DRP) larger than the equivalent on fields with agronomically appropriate STP (i.e., agronomic fields). Additionally, legacy P fields behaved similarly to agronomic fields during precipitation events: rainfall amount was the primary climatic variable affecting TP and DRP loads while tile discharge and nitrate loads were both largely affected by rainfall amount and event duration. By addressing fundamental questions about interactions between elevated STP fields, climate, and nutrient transformation and transport, this study provides greater insight to the significance of legacy P fields on water quality issues and therefore informs decisions on BMP selection and design. Stacked BMPs on fields with high nutrient loss potential are hypothesized to improve quality of runoff more than non-targeted or single practices. To measure the effectiveness of stacked conservation practices on a legacy P field, this study analyzed nutrient loss from a western Ohio field for nearly two years. The targeted subsurface tile drained 4.5 ha (11.1 acres) of the field to the first BMP, a ditch-style P removal structure (PRS) filled with electric arc furnace steel slag. The effluent from the PRS then discharged into a second BMP: a constructed wetland. Discharge moving through the stacked practices was monitored with bubbler flow meters and area velocity sensors and water samples were collected using automated water samplers at the inflows and outflows of each BMP. Between the inlet and outlet of the PRS, there was a 27% reduction in TP concentration and an 18% increase in DRP concentration. The wetland produced statistically significant and consistent reductions of TP loading and DRP loading by 30% and 18%, respectively. Although the PRS did not perform as designed, the stacked PRS and wetland in series had overall load reductions of TP (36%) and DRP (18%). The analysis of these stacked practices demonstrates that although one of the two BMPs performed poorly, there is a benefit to redundant designs, which provides insight on how to best implement BMPs on agricultural lands.

Legacy Phosphorus in Agriculture: Role of Past Management and Perspectives for the Future

Author : Luke Gatiboni
Publisher : Frontiers Media SA
ISBN 13 : 2889663574
Total Pages : 140 pages
Book Rating : 4.8/5 (896 download)

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Book Synopsis Legacy Phosphorus in Agriculture: Role of Past Management and Perspectives for the Future by : Luke Gatiboni

Download or read book Legacy Phosphorus in Agriculture: Role of Past Management and Perspectives for the Future written by Luke Gatiboni and published by Frontiers Media SA. This book was released on 2021-01-07 with total page 140 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Phosphorus Management in Crop Production

Author : Nand Kumar Fageria
Publisher : CRC Press
ISBN 13 : 1498705871
Total Pages : 375 pages
Book Rating : 4.4/5 (987 download)

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Book Synopsis Phosphorus Management in Crop Production by : Nand Kumar Fageria

Download or read book Phosphorus Management in Crop Production written by Nand Kumar Fageria and published by CRC Press. This book was released on 2017-02-17 with total page 375 pages. Available in PDF, EPUB and Kindle. Book excerpt: The world population is projected to reach nine billion by 2050, and in the coming years, global food demand is expected to increase by 50% or more. Higher crop productivity gains in the future will have to be achieved in developing countries through better natural resources management and crop improvement. After nitrogen, phosphorus (P) has more widespread influence on both natural and agricultural ecosystems than any other essential plant element. It has been estimated that 5.7 billion hectares of land worldwide contain insufficient amounts of available P for sustainable crop production, and P deficiency in crop plants is a widespread problem in various parts of the world. However, it has been estimated that worldwide minable P could last less than 40 years. For sustaining future food supplies, it is vital to enhance plant P use efficiency. To bring the latest knowledge and research advances in efficient management of P for economically viable and environmentally beneficial crop production in sustainable agriculture, Phosphorus Management in Crop Production contains chapters covering functions and diagnostic techniques for P requirements in crop plants, P use efficiency and interactions with other nutrients in crop plants, management of P for optimal crop production and environmental quality, and basic principles and methodology regarding P nutrition in crop plants. The majority of research data included are derived from many years of field, greenhouse, and lab work, hence the information is practical in nature and will have a significant impact on efficient management of P-fertilizers to enhance P use efficiency, improve crop production, promote sustainable agriculture, and reduce P losses through eluviations, leaching, and erosion to minimize environmental degradation. A comprehensive book that combines practical and applied information, Phosphorus Management in Crop Production is an excellent reference for students, professors, agricultural research scientists, food scientists, agricultural extension specialists, private consultants, fertilizer companies, and government agencies that deal with agricultural and environmental issues.

Environmental Effects of Conservation Practices on Grazing Lands

Author :
Publisher :
ISBN 13 :
Total Pages : 402 pages
Book Rating : 4.0/5 ( download)

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Book Synopsis Environmental Effects of Conservation Practices on Grazing Lands by :

Download or read book Environmental Effects of Conservation Practices on Grazing Lands written by and published by . This book was released on 2006 with total page 402 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Journal of Soil and Water Conservation

Author :
Publisher :
ISBN 13 :
Total Pages : 818 pages
Book Rating : 4.3/5 (117 download)

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Book Synopsis Journal of Soil and Water Conservation by :

Download or read book Journal of Soil and Water Conservation written by and published by . This book was released on 2017 with total page 818 pages. Available in PDF, EPUB and Kindle. Book excerpt: Vol. 25, no. 1 contains the society's Lincoln Chapter's Resource conservation glossary.

Phosphorus in Agriculture: 100 % Zero

Author : Ewald Schnug
Publisher : Springer
ISBN 13 : 9401776121
Total Pages : 357 pages
Book Rating : 4.4/5 (17 download)

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Book Synopsis Phosphorus in Agriculture: 100 % Zero by : Ewald Schnug

Download or read book Phosphorus in Agriculture: 100 % Zero written by Ewald Schnug and published by Springer. This book was released on 2016-06-14 with total page 357 pages. Available in PDF, EPUB and Kindle. Book excerpt: The title ‘Phosphorus in Agriculture: 100 % Zero’ is synonymous for make-or-break. And it stands up to the promise. This book sends an important message as it delivers background information, intrinsic hypotheses, validation approaches and legal frameworks, all for balanced phosphorus fertilization in agriculture. This implies firstly that the phosphorus requirement of crop is fully satisfied by applying exclusively fertilizers which contain the nutrient in completely available form. Secondly, environmental demands through eutrophication and hazardous contaminants must not be compromised. The book identifies equally knowledge gaps and deficits in the transformation and implementation of research into practice. Bottom line is that research delivers the tools for a sustainable phosphorus management while legal frameworks are insufficient.

Minimizing Phosphorus and Nitrogen Loss from Agricultural Systems with Cover Crops and Tillage in Southern Illinois

Author : Ashani Thilakarathne
Publisher :
ISBN 13 :
Total Pages : 0 pages
Book Rating : 4.:/5 (137 download)

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Book Synopsis Minimizing Phosphorus and Nitrogen Loss from Agricultural Systems with Cover Crops and Tillage in Southern Illinois by : Ashani Thilakarathne

Download or read book Minimizing Phosphorus and Nitrogen Loss from Agricultural Systems with Cover Crops and Tillage in Southern Illinois written by Ashani Thilakarathne and published by . This book was released on 2022 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt: Corn (Zea mays L.) and soybean (Glycine max (L.) Merr.) production in Illinois has a significant impact on the economy and environmental footprint in the state and the Midwest region. Nutrient leaching from Midwestern agricultural fields is one of the major reasons for the hypoxic zone developed in the Gulf of Mexico. Winter-fallow and early spring (after fertilizer application) are the two most critical periods for nutrient leaching due to increased precipitation and availability of nutrients. Cover crops (CCs) in these seasons are a promising best management practice (BMP) to reduce nutrient leaching in the winter-fallow season. No-till (NT) and reduced tillage (RT) are some other BMPs that farmers in Illinois adopt to reduce erosion. The adoption of CCs is limited due to the lack of knowledge and data on the yield and environmental benefits of CCs in different climatic and soil regimes. Thereby, this doctoral dissertation addresses several critical questions about CC and tillage impacts in claypan soils of southern Illinois with four principal projects with multiple objectives. Research study 1 was a field experiment conducted from 2013-to 2021 to understand the effect of CCs (CCs vs. noCC) and two tillage (NT and RT) practices on soil nitrate-N leaching. The experimental design was a complete randomized design with CC treatments that had two levels (two crop rotations) corn-cereal rye (Secale cereale L.)-soybean-hairy vetch (Vicia villosa R.) [CcrShv] and corn-noCC-soybean-noCC [CncSnc] and tillage treatments with two levels (NT and RT) replicated three times in the field. Each plot had a pan lysimeter installed below the A horizon (22-30 cm depth) to collect water samples weekly or biweekly depending on the rainfall. The corn yield was significantly greater in RT rotations compared to NT rotations with a 36% increase in the yield in 2019 and 2021 corn rotations. The yield was significantly greater in CcrShv rotations compared to the CncSnc rotations. The greatest yield was observed in the interaction of CcrShv-RT in all years. This increase in yield is inversely correlated to the remaining soil N values when the N credit from CCs was not accounted for. Soil nitrate-N leaching was significantly greater in CcrShv rotations compared to the CncSnc rotation in 2021 indicating vetch CC biomass decomposition can lead to increased leaching losses if the window between CC termination and corn planting is not minimized. Precipitation during the early spring can play a vital role in flushing the newly applied fertilizer as well as the N released from decomposing CC residue. The excessively wet year of 2019 showed that N losses are dominated by both nitrate-N leaching and nitrous oxide emissions, but in a typical growing season N losses are dominated by leaching compared to emissions. Research study 2 was designed to better understand the N cycling and fate of applied N in a complete corn-soybean rotation in southern Illinois with CCs and tillage practices. The research was overlayed in the same field with the same crop rotation and tillage practices. In this study, 15N labeled urea fertilizer (9.2% atom) was applied before the corn and soybean seasons. Soil, water, and biomass samples were collected to understand N distribution in each pool. In the corn season in 2017 a significantly greater 15N recovery was observed in CC (CcrShv) plots compared to the noCC plots in the sample collected seven days after planting (DAP). In the CC and depth interaction, a significantly greater 15N recovery was observed in 15-30 cm depth showing that the increased macropores due to CCs can lead to subsurface movement of N through the topsoil. The 15N recovery in water samples was high in CncSnc rotations in the cereal rye season but was significantly greater in CcrShv rotations (8.95 kg ha-1) in hairy vetch seasons. In the two years of complete rotation, the cumulative 15N recovery (quantity derived from fertilizer in water) was significantly greater in CC rotation. In the corn plants, the 15N recovered from the soil was greater than the 15N recovered from fertilizer. This shows the importance of the residual N from prior fertilizer and organic matter input. In the cereal rye season, CCs recovered significantly greater 15N from fertilizer compared to noCC rotations, assuring that cereal rye is an effective nutrient scavenger. A similar pattern was observed in the hairy vetch season as well. However, the soybean 15N recovery was greater in noCC rotations compared to CC rotations. The third study was a field trial on CCs and tillage to understand their individual and combined impact on soil physical parameters. Soil physical parameters were first measured in 2014 and were repeated in 2021. Bulk density at the 0-5 cm depth was 5% lower in 2021 compared to 2014 with the lowest BD in CC rotations with RT practices. For the depth of 0-15 cm, the lowest BD was observed in CC rotation with RT but, the largest reduction was observed in the CC rotation with NT. The wet aggregate stability was improved from 15-28 % over the years in all rotations. The lowest percentage improvement was observed in noCC rotation with RT practice. Penetration resistance was significantly lower in CC plots for the depth of 0-2.5 cm. CCs further improved the time to runoff in plots even though the infiltration rates were not affected. Chemical soil health indices were not significant overtime for CCs or tillage practices. However, a large number of earthworm counts were observed in NT systems compared to RT systems. The final project was a field trial to identify the soil P response to the CC and tillage practices. For this study, three different CC rotations, [corn-cereal rye-soybean-hairy vetch / corn-cereal rye-soybean-oats+radish / corn-noCC-soybean-noCC] and two tillage practices (NT and RT) were used. Soil samples were collected after the corn harvest in 2015 and 2021 and were analyzed for soil Phosphorus (P), inorganic P fractions by Chan and Jackson method, and dissolved reactive phosphorus (DRP) in leachate. The soil Mehlich-3 and Bray-1 P values indicate a great concentration of P in 0-15 cm depth for both years. More refined sampling in 2021 showed that the majority of P in 0-15 cm depth concentrates at the near-surface soil, in 0-5 cm depth irrespective of the CC and tillage treatment. Inorganic soil P fractions were not significantly different between CCs or tillage practices over time. Yet, irrespective of the treatment the non- labile P forms increased in 2021in the soil compared to 2015. The average and cumulative DRP values were highly dependent on the precipitation amounts and timing. However, in general, NT systems had greater average and cumulative DRP leaching compared to RT in both years. In general, CCs in the winter-fallow season is a good recommendation for farms that seek to maximize their production with a minimal environmental footprint. In the long run, CCs can improve soil physical and chemical properties which ultimately can increase the yield potential for corn and soybean. The added benefit of N credit due to leguminous CCs can reduce the fertilizer inputs. The CC benefits including the reduction in nutrient leaching depend on the type of CCs used in the field. More importantly, the CC termination time will be critical to obtain the maximum benefit of CCs. Even though the NT practices improve soil physical properties, long-term NT can increase the risk of soil P stratification in near-surface soils and can ultimately lead to more P loss via erosion, runoff, and soil water leaching. However, the combined use of CC and NT practices can help minimize the potential for erosion and runoff.

Phosphorus and Nitrogen Losses in Runoff From Fields With and Without Tile Drainage

Author : Leanna E. Thalmann
Publisher :
ISBN 13 :
Total Pages : 162 pages
Book Rating : 4.:/5 (124 download)

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Book Synopsis Phosphorus and Nitrogen Losses in Runoff From Fields With and Without Tile Drainage by : Leanna E. Thalmann

Download or read book Phosphorus and Nitrogen Losses in Runoff From Fields With and Without Tile Drainage written by Leanna E. Thalmann and published by . This book was released on 2021 with total page 162 pages. Available in PDF, EPUB and Kindle. Book excerpt: Nutrient losses in surface and subsurface drainage from crop fields have important water quality implications. The deterioration of water quality in segments of Lake Champlain has led to efforts to reduce phosphorus (P) and nitrogen (N) export from agricultural fields. This thesis presents data from two years of edge-of-field monitoring in two adjacent corn (Zea mays L.) silage fields in Keeseville, New York. One field has only surface drainage improvements with monitoring equipment, and the other has both surface and subsurface drainage modifications and monitoring equipment. The study took place from October 2018 to September 2020 and quantified flow and concentrations of total phosphorus (TP), dissolved reactive phosphorus (DRP), total nitrogen (TN), nitrate (NO3--N), ammonium (NH4+-N), and total suspended solids (TSS), in a Tile Drained Field (TD) and an Undrained Field (UD). For the events fully monitored, the non-growing season (NGS; October 15-April 15) dominated runoff with 96% (326.7 mm) and 90% (283.7 mm) of the total runoff occurring for TD and UD, respectively. The NGS also exported the greatest amount of nutrients; TD discharged more runoff and N, while UD dominated in P export. The TD discharged 170.6 mm/year of runoff and exported 11.5 kg TN/ha/yr and 0.135 kg TP/ha/yr. The Tile Drained Surface contributed 48% (82.6 mm/yr) of the total runoff and 13% (3.0 kg/ha/yr) of the TN export and 73% (0.099 kg/ha/yr) of the TP export. Comparatively, UD discharged 158.4 mm/year of runoff and 44% less TN export (6.5 kg TN/ha/yr). The UD field exported 0.144 kg TP/ha/yr, which was 6.8% more TP export than TD. The presence of tile drainage reduced the total surface runoff volume from TDS, which reduced nutrient loading from Tile Drained Surface. Five large runoff events all occurred during the NGS, and contributed the majority of nutrient export and discharge. Overall, the Tile Drained Surface and the Undrained Surface had higher concentrations and loadings of P, while the Tile Drained Tile had higher concentrations and loadings of N. The NGS was a critical period for discharge contributed the greatest amount of runoff and nutrient export. Management practices should be put in place to reduce these losses during the late fall, winter and early spring. Optimizing the timing and application rates of N and P should be implemented to reduce the risk of nutrient export.

Tools for Assessing Phosphorus Loss from Nordic Agriculture

Author : Edited by: Goswin Heckrath, Marianne Bechmann, Petri Ekholm, Faruk Djodjic, Barbro Ulén, Hans Estrup Andersen and Preben Olsen
Publisher : Nordic Council of Ministers
ISBN 13 : 9289312424
Total Pages : 142 pages
Book Rating : 4.2/5 (893 download)

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Book Synopsis Tools for Assessing Phosphorus Loss from Nordic Agriculture by : Edited by: Goswin Heckrath, Marianne Bechmann, Petri Ekholm, Faruk Djodjic, Barbro Ulén, Hans Estrup Andersen and Preben Olsen

Download or read book Tools for Assessing Phosphorus Loss from Nordic Agriculture written by Edited by: Goswin Heckrath, Marianne Bechmann, Petri Ekholm, Faruk Djodjic, Barbro Ulén, Hans Estrup Andersen and Preben Olsen and published by Nordic Council of Ministers. This book was released on 2005-11-01 with total page 142 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Selected Water Resources Abstracts

Author :
Publisher :
ISBN 13 :
Total Pages : 806 pages
Book Rating : 4.3/5 (91 download)

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Book Synopsis Selected Water Resources Abstracts by :

Download or read book Selected Water Resources Abstracts written by and published by . This book was released on 1991 with total page 806 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Agricultural Nonpoint Source Control of Phosphorus in the New York State Lake Ontario Basin: The influence of tillage on phosphorus losses from manured cropland

Download Agricultural Nonpoint Source Control of Phosphorus in the New York State Lake Ontario Basin: The influence of tillage on phosphorus losses from manured cropland PDF Online Free

Author :
Publisher :
ISBN 13 :
Total Pages : 122 pages
Book Rating : 4.E/5 ( download)

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Book Synopsis Agricultural Nonpoint Source Control of Phosphorus in the New York State Lake Ontario Basin: The influence of tillage on phosphorus losses from manured cropland by :

Download or read book Agricultural Nonpoint Source Control of Phosphorus in the New York State Lake Ontario Basin: The influence of tillage on phosphorus losses from manured cropland written by and published by . This book was released on 1991 with total page 122 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Selected Water Resources Abstracts

Author :
Publisher :
ISBN 13 :
Total Pages : 806 pages
Book Rating : 4.0/5 ( download)

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Book Synopsis Selected Water Resources Abstracts by :

Download or read book Selected Water Resources Abstracts written by and published by . This book was released on 1991 with total page 806 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Sustainable Phosphorus Management

Author : Roland W. Scholz
Publisher : Springer
ISBN 13 : 9789402402469
Total Pages : 0 pages
Book Rating : 4.4/5 (24 download)

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Book Synopsis Sustainable Phosphorus Management by : Roland W. Scholz

Download or read book Sustainable Phosphorus Management written by Roland W. Scholz and published by Springer. This book was released on 2017-04-30 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book describes a pathway for sustainable phosphorus management via the Global Transdisciplinary Processes for Sustainable Phosphorus Management project (Global TraPs). Global TraPs is a multi-stakeholder forum in which scientists from a variety of disciplines join with key actors in practice to jointly identify critical questions and to articulate what new knowledge, technologies and policy processes are needed to ensure that future phosphorus use is sustainable, improves food security and environmental quality and provides benefits for the poor. The book offers insight into economic scarcity and identifies options to improve efficiency and reduce environmental impacts of anthropogenic phosphorus flows at all stages of the supply and use chain.

Principles of Lake Sedimentology

Author : L. Hakanson
Publisher : Springer
ISBN 13 : 9783642692765
Total Pages : 0 pages
Book Rating : 4.6/5 (927 download)

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Book Synopsis Principles of Lake Sedimentology by : L. Hakanson

Download or read book Principles of Lake Sedimentology written by L. Hakanson and published by Springer. This book was released on 2011-12-08 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Evaluating Management Practices to Limit Phosphorus Losses from Agricultural Fields in the Castor Watershed Using the WEND Model

Author : Carolyne Choquette
Publisher :
ISBN 13 :
Total Pages : 214 pages
Book Rating : 4.:/5 (617 download)

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Book Synopsis Evaluating Management Practices to Limit Phosphorus Losses from Agricultural Fields in the Castor Watershed Using the WEND Model by : Carolyne Choquette

Download or read book Evaluating Management Practices to Limit Phosphorus Losses from Agricultural Fields in the Castor Watershed Using the WEND Model written by Carolyne Choquette and published by . This book was released on 2005 with total page 214 pages. Available in PDF, EPUB and Kindle. Book excerpt: "The model was used to examine the impacts of crop rotations, fertilizer application and tillage management on TP export. For the Castor watershed, the soil test P increased at a mean rate of 3.71 kg Mehlich-III P ha -1 yr-1, equivalent to a mean input of about 32 kg P2O5 ha-1 yr-1 in excess of plant requirements, assuming current field management practices remain constant." --

Potential and Observed Release of Phosphorus from Crop Residue and Cover Crops Over the Non-growing Season in a Cool Temperate Region

Author : Tatianna Lozier
Publisher :
ISBN 13 :
Total Pages : pages
Book Rating : 4.:/5 (126 download)

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Book Synopsis Potential and Observed Release of Phosphorus from Crop Residue and Cover Crops Over the Non-growing Season in a Cool Temperate Region by : Tatianna Lozier

Download or read book Potential and Observed Release of Phosphorus from Crop Residue and Cover Crops Over the Non-growing Season in a Cool Temperate Region written by Tatianna Lozier and published by . This book was released on 2016 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Maintaining crop residue or cover crops on fields during winter is a recommended Best Management Practice (BMP) in temperate regions. However, losses of phosphorus (P) to runoff have been attributed to vegetation following freeze-thaw cycles (FTC). Much of the existing knowledge on P loss from vegetation following FTC has been obtained under severe frost conditions (either simulated or natural). In cool temperate climates, such as Southwestern Ontario, air temperatures are more moderate. Consequently, crop residue and cover crops may be less severely impacted by FTC. An improved understanding of the role of surface vegetation in P losses during the non-growing season (NGS) in cool temperate climate zones is needed to determine if the use of cover crops is suitable for these regions. This thesis addresses two major objectives: (1) to better understand the potential role of hydroclimatic conditions (FTC and hydrological event type) in mobilizing P from crop residue, Triticum aestivum L. (winter wheat), as well as Trifolium pretense L. (red clover) and Avena sativa L. (oat) as cover crops, using laboratory experimentation; and (2) to quantify the release of P from vegetation and soil over the NGS in a field setting, and, determine if changes in water extractable phosphorus (WEP) in vegetation or soil were reflected in loads of dissolved reactive phosphorus (DRP) or total phosphorus (TP) in surface runoff and tile drain effluent. Results from this study revealed that the patterns observed in the laboratory were reflected in the field, where cover crops released more P than winter wheat residue. Oat cover crop was impacted by FTC whereas red clover was not, likely because it had been terminated in early fall using a herbicide. The laboratory and field experiments also demonstrated that potential losses of P from cover crops do not necessarily translate to losses of P in runoff because the mobilization of P in runoff is impacted by both supply and transport processes. Phosphorus leaching and loss from fields are hampered if crops are not inundated/flooded or if surface runoff is limited, but enhanced when vegetation is subjected to prolonged contact with runoff water. The field study demonstrated that although P appeared to have been mobilized from both vegetation and soil pools during the NGS, loads of DRP P and TP leaving the fields were small in comparison, suggesting that much of the P released was retained within the field rather than lost in runoff. This study provides insight into the timing and magnitude of P release from vegetation throughout the NGS in regions with a cool temperate climate and provides an improved understanding of the contribution of cover crops to winter P losses.