scholarly journals Six State Survey of Container Nursery Nitrate Nitrogen Runoff

1993 ◽  
Vol 11 (4) ◽  
pp. 206-208
Author(s):  
T. Yeager ◽  
R. Wright ◽  
D. Fare ◽  
C. Gilliam ◽  
J. Johnson ◽  
...  
Keyword(s):  
North Carolina ◽  
Drinking Water ◽  
Controlled Release ◽  
Best Management Practices ◽  
Management Practices ◽  
Best Management ◽  
Drinking Water Standard ◽  
Nitrogen Runoff ◽  
Controlled Release Fertilizers ◽  
Container Nursery

Abstract Container nursery bed runoff, reservoirs or ponds that contained runoff, wells, and surface water discharged from the property or at the property border were sampled at approximately 6-week intervals during April–October 1990 in Alabama, Florida, New Jersey, North Carolina, Ohio, and Virginia. Runoff from container beds averaged 8 and 20 ppm NO3-N, respectively, for nurseries using controlled-release fertilizers (CRF) and controlled-release fertilizers supplemented with solution fertilizers (CRFSS). Average NO3-N levels for runoff collection ponds, property borders, and wells were each less than 10 ppm, the drinking water limit, regardless of fertilizers used. However, ppm NO3-N for some samples exceeded the drinking water standard. In general, these data indicate reason for concern and nursery operators need to implement best management practices.

scholarly journals Controlled-release Fertilizers for Vegetable Production in the Era of Best Management Practices: Teaching New Tricks to an Old Dog

2005 ◽  
Vol 15 (1) ◽  
pp. 36-46 ◽  
Author(s):  
Eric H. Simonne ◽  
Chad M. Hutchinson
Keyword(s):  
Controlled Release ◽  
Best Management Practices ◽  
Management Practices ◽  
Calcium Nitrate ◽  
Vegetable Production ◽  
Available Nitrogen ◽  
Cost Share ◽  
Best Management ◽  
N Release ◽  
Controlled Release Fertilizers

Best management practices (BMPs) for vegetable crops are under development nationwide and in Florida. One goal of the Florida BMP program is to minimize the possible movement of nitrate-nitrogen from potato (Solanum tuberosum) production to surface water in the St. Johns River watershed without negatively impacting potato yields or quality. Current fertilizer BMPs developed for the area focus on fertilizer rate. Controlled-release fertilizers (CRF) have long been a part of nutrient management in greenhouse and nursery crops. However, CRFs have been seldom used in field-vegetable production because of their cost and release characteristics. Nutrient release curves for CRFs are not available for the soil moisture and temperature conditions prevailing in the seepage-irrigated soils of northern Florida. Controlled-leaching studies (pot-in-pot) in 2000 and 2001 have shown that plant-available nitrogen (N) was significantly higher early in the season from ammonium nitrate, calcium nitrate and urea compared to selected CRFs. However, N release from off-the-shelf and experimental CRFs was too slow, resulting in N recoveries ranging from 13% to 51%. Cost increase due to the use of CRFs for potato production ranged from $71.66 to $158.14/ha ($29 to $64 per acre) based on cost of material and N application rate. This higher cost may be offset by reduced application cost and cost-share pro-grams. Adoption of CRF programs by the potato (and vegetable) industry in Florida will depend on the accuracy and predictability of N release, state agencies' commitment to cost-share programs, and CRFs manufacturers' marketing strategies. All interested parties would benefit in the development of BMPs for CRFs.

scholarly journals Controlled-release Fertilizers Affect Nitrate Nitrogen Runoff from Container Plants

1993 ◽  
Vol 3 (2) ◽  
pp. 174-177 ◽  
Author(s):  
Tom Yeager ◽  
Geri Cashion
Keyword(s):  
Drinking Water ◽  
Controlled Release ◽  
Nitrate Nitrogen ◽  
Fertilizer Application ◽  
Sampling Time ◽  
N Level ◽  
Drinking Water Standard ◽  
Nitrogen Runoff ◽  
Container Plant ◽  
Controlled Release Fertilizers

Container plant runoff NO3-N levels varied with sampling time and were periodically higher than the 10-ppm federal drinking water standard during 4.5 months following fertilizer application, even though controlled-release fertilizers Nutricote 18N-2.6P-6.6K Osmocote 18N-2.6P-10K, Prokote 20N-1.3P-8.3K, and Woodace 19N-2.6P-10K were used. Leachate collected from containers had a higher NO3-N level than runoff regardless of sampling time. Leachate NO3-N ranged from 278 ppm for Nutricote 3.5 months after application to 6 ppm for Prokote 1 week after application.

scholarly journals Best Management Practices for Florida Citrus

2006 ◽  
Vol 16 (3) ◽  
pp. 389-393 ◽  
Author(s):  
Larry Parsons ◽  
Brian Boman
Keyword(s):  
Best Management Practices ◽  
Management Practices ◽  
Root Zone ◽  
Agricultural Practices ◽  
Runoff Water ◽  
Cost Share ◽  
Central Florida ◽  
Best Management ◽  
Drinking Water Standard ◽  
Florida Citrus

Best management practices (BMPs) started in Florida citrus (Citrus spp.) in the 1990s and have evolved to play a major role in production practices today. One of the earliest BMPs in Florida arose from concerns over nitrate-nitrogen concentrations in some surficial groundwater aquifers exceeding the 10 mg·L-1 drinking water standard. This occurred in an area of well-drained sandy soils known as the Central Florida Ridge that extends north and south through the central part of the Florida peninsula. State agencies could have used a strictly regulatory approach and restricted how much nitrogen growers could apply. Instead of setting arbitrary regulations, the agencies promoted a scientific-based BMP approach. A nitrogen BMP for Central Florida Ridge citrus was established, and research is now validating the earlier groundwater work on more grower field sites. The purpose of this BMP was to minimize the risk of leaching nitrates from fertilizer into the groundwater. Several important aspects of the BMP involve: 1) limiting the amount of nitrogen fertilizer applied at any one time, 2) increasing the frequency of fertilizer applications, 3) reducing fertilizer applications during the summer rainy season, and 4) managing irrigation to reduce leaching below the root zone. Since this Central Florida Ridge nitrogen BMP was established, major BMP actions to improve water quality and reduce the quantity of runoff water have taken place in the Indian River production area of Florida's east coast. BMPs continue to be set up in other parts of the state for a variety of plant and animal agricultural practices. In some cases, cost-share funds have been provided to help implement BMPs. With voluntary BMPs, growers have scientifically based guidelines, a waiver of liability, and an avoidance of arbitrary regulations.

Stimulating implementation of best management practices to reduce pesticide loads to surface water in a small agricultural catchment

2020 ◽  
Author(s):  
Piet Seuntjens ◽  
Ellen Pauwelyn ◽  
Els Belmans ◽  
Ingeborg Joris ◽  
Elien Dupon ◽  
...  
Keyword(s):  
Water Quality ◽  
Drinking Water ◽  
Surface Water ◽  
Best Management Practices ◽  
Management Practices ◽  
Point Sources ◽  
Mitigation Measures ◽  
Physical Analysis ◽  
Best Management ◽  
The Impact

<p>High-quality, safe, and sufficient drinking water is essential for life: we use it for drinking, food preparation and cleaning. Agriculture is the biggest source of pesticides and nitrate pollution in European fresh waters. Pesticide occurrences in rivers result from diffuse runoff from farmland or from point sources from the farmyard. Although many best management practices (BMPs) to mitigate these diffuse and point sources are developed and widely disseminated for several years, the effective implementation of mitigation measures in practice remains limited. Therefore, the Waterprotect project has been set up to improve the knowledge and awareness of the impact of crop protection products on the water quality among the many actors, to identify the bottlenecks for implementation of suitable BMPs and further develop new governance strategies to overcome these issues for a more effective drinking water protection. As all actors share the responsibility to deal with the water quality, government agencies (e.g. environmental agencies), private actors (e.g. drinking water company, input supplier, processing industry) and civil society actors (e.g. farmers) are involved in the project. Processes to cope with the problem are initiated in 7 action labs among which the Belgian Bollaertbeek action lab. The study area is a small agricultural catchment where surface water is used as intake to produce drinking water for the nearby city. The area is sensitive to erosion and based on a physical analysis and risk analysis of the catchment, the implementation of filling and cleaning places on individual farms and buffer strips along the watercourse are proposed as suitable measures to tackle the pollution problem. In order to implement them, mechanisms to increase the involvement of targeted farmers and alternative governance systems are studied. Results of the analysis of the water quality issues and the water governance system in the Belgian Bollaertbeek action lab and the strategies to try to improve the uptake of mitigation measures to improve water quality will be presented.</p>

scholarly journals Challenges and Opportunities for Extension Educators Involved in Best Management Practices

2006 ◽  
Vol 16 (3) ◽  
pp. 403-407 ◽  
Author(s):  
Eric H. Simonne ◽  
Monica Ozores-Hampton
Keyword(s):  
Best Management Practices ◽  
Applied Research ◽  
Management Practices ◽  
Nutrient Management ◽  
Extension Educators ◽  
Best Management ◽  
Challenges And Opportunities ◽  
Nutrient Discharge ◽  
Growing Conditions ◽  
Controlled Release Fertilizers

With the development and implementation of best management practices (BMP), extension educators are facing a new and unexpected combination of challenges and opportunities. Because the BMP mandate requires a combination of research, demonstration, and outreach, it may affirm the relevance of the land grant mission in the 21st century, engage universities in interagency alliances, and help rediscover the wonders of the proven extension method. The extension approach to water and nutrient management needs to shift from “pollute less by applying less fertilizer” to “pollute less by better managing water.” Applied research is leading to advances in areas such as nutrient cycles and controlled-release fertilizers. At the same time, universities need to walk a fine line between education and regulation, address perennial issues of overfertilization, and consider the reformulation of recommendations that are now used in a quasi-regulatory environment. A combination of education, consensus, and novel approaches is needed to adapt the rigor of research to a multitude of growing conditions and risks of nutrient discharge in order to comply with U.S. federal laws and restore water quality.

scholarly journals FIELD ESTIMATION OF NITRATE LOAD FROM VEGETABLE FIELDS IN THE CARIBBEAN BASIN

HortScience ◽  
2006 ◽  
Vol 41 (3) ◽  
pp. 506E-507
Author(s):  
Eric Simonne ◽  
D. Studstill ◽  
M. Dukes ◽  
G. Hochmuth ◽  
R. Hochmuth ◽  
...  
Keyword(s):  
Best Management Practices ◽  
Management Practices ◽  
Cultural Practices ◽  
Root Zone ◽  
Best Management ◽  
Drinking Water Standard ◽  
Deep Wells ◽  
Stream Control ◽  
Field Estimation ◽  
The Caribbean

The development of best management practices (BMP) and the alloca-tion of pollution among land users in a watershed (TMDL) requires an understanding of the effect of cultural practices on both yields and nutrient leaching below the root zone. `Florida 47' tomato and `La Estrella' tropical pumpkin were grown on plasticulture using combinations of UF–IFAS recommended N and irrigation rates in a 1-ha field in 2004. Average N and irrigation rates over the whole field were 100% and 80%, respectively. Nitrate movement was assessed with twenty-four 1-m-long drainage lysimeters in each plot and ten 7-m-deep wells in and around the field Lysimeters and wells were sampled every 2 and 3 weeks throughout the year, respectively. Leachate volume and concentration in the drainage lysimeters were highly variable. Except shortly after the 25-cm rain due to hurricane Jeanne, most leachate volumes were <1 L·m–1. Annual NO3-N mean treatment load ranged between 7 and 15 kg·ha–1, but these differences were not significant due to high variability (CV = 175%). Single-lysimeter annual highest load was 39 kg·ha–1 of NO3-N (17.5% of N applied). In 2004, NO3-N concentration in well water was <1, ranged between 15 and 35, ranged between 0 and 10 mg·L–1 NO3-N in the up-stream control, inside, and perimeter wells, respectively. These concentrations are in the same ranges as those observed in this field in previous years (1997–2003) and often exceeded the 10 mg/L drinking water standard. Because NO3-N discharge into the environment may occur after the growing season, BMPs should be implemented on a year round basis. The methodology used in load measurement should be improved to better account for spatial variability.

SOIL and SOIL-NO at catchment scale – a case study for an agriculture-dominated catchment

2002 ◽  
Vol 45 (9) ◽  
pp. 9-17 ◽  
Author(s):  
J. Deelstra ◽  
M. Bechmann ◽  
S.H. Kvaernø
Keyword(s):  
Best Management Practices ◽  
Management Practices ◽  
Nitrogen Loss ◽  
Catchment Scale ◽  
Catch Crops ◽  
Model Soil ◽  
Best Management ◽  
Nitrogen Runoff ◽  
Individual Farm ◽  
Main Station

A one-dimensional model, SOIL/SOIL-NO, is used to simulate the water and nitrogen balance at catchment scale. The objective is to use the model in simulating the effects of best management practices on nitrogen runoff. The model was applied to individual farm fields in an agriculture dominated catchment and simulations were carried out for the period from 94–98. The results were promising. The simulated nitrogen runoff agreed quite well with the measured nitrogen loss at the main station. The effects of best management practices like optimal fertiliser application, catch crops and irrigation were simulated. For this particular catchment, the introduction of catch crops resulted in the best effect on reducing nitrogen runoff from agricultural dominated catchments.

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