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1998 Monterey County Water Resources Agency Groundwater Extraction Summary Report

Monterey County Water Resources Agency Water Reports

Annual report required by Monterey County Ordinances No. 3663 and 3717 in order to provide the Monterey County Water Resources Agency the most accurate water use information possible in order to manage water resources. Groundwater extraction data are presented by measurement in acre-feet equal to 325,851 gallons.

2012 Monterey County Water Resources Agency Groundwater Extraction Summary Report

Monterey County Water Resources Agency Water Reports

Annual report required by Monterey County Ordinances No. 3663 and 3717 in order to provide the Monterey County Water Resources Agency the most accurate water use information possible in order to manage water resources. Groundwater extraction data are presented by measurement in acre-feet equal to 325,851 gallons.

2009 Monterey County Water Resources Agency Groundwater Extraction Summary Report

Monterey County Water Resources Agency Water Reports

Annual report required by Monterey County Ordinances No. 3663 and 3717 in order to provide the Monterey County Water Resources Agency the most accurate water use information possible in order to manage water resources. Groundwater extraction data are presented by measurement in acre-feet equal to 325,851 gallons.

1999 Monterey County Water Resources Agency Groundwater Extraction Summary Report

Monterey County Water Resources Agency Water Reports

Annual report required by Monterey County Ordinances No. 3663 and 3717 in order to provide the Monterey County Water Resources Agency the most accurate water use information possible in order to manage water resources. Groundwater extraction data are presented by measurement in acre-feet equal to 325,851 gallons.

2006 Monterey County Water Resources Agency Groundwater Extraction Summary Report

Monterey County Water Resources Agency Water Reports

Annual report required by Monterey County Ordinances No. 3663 and 3717 in order to provide the Monterey County Water Resources Agency the most accurate water use information possible in order to manage water resources. Groundwater extraction data are presented by measurement in acre-feet equal to 325,851 gallons.

2007 Monterey County Water Resources Agency Groundwater Extraction Summary Report

Monterey County Water Resources Agency Water Reports

Annual report required by Monterey County Ordinances No. 3663 and 3717 in order to provide the Monterey County Water Resources Agency the most accurate water use information possible in order to manage water resources. Groundwater extraction data are presented by measurement in acre-feet equal to 325,851 gallons.

2010 Monterey County Water Resources Agency Groundwater Extraction Summary Report

Monterey County Water Resources Agency Water Reports

Report provides summary of groundwater use within Zones 2, 2A and 2B

2005 Monterey County Water Resources Agency Groundwater Extraction Summary Report

Monterey County Water Resources Agency Water Reports

Annual report required by Monterey County Ordinances No. 3663 and 3717 in order to provide the Monterey County Water Resources Agency the most accurate water use information possible in order to manage water resources. Groundwater extraction data are presented by measurement in acre-feet equal to 325,851 gallons.

2004 Monterey County Water Resources Agency Groundwater Extraction Summary Report

Monterey County Water Resources Agency Water Reports

Annual report required by Monterey County Ordinances No. 3663 and 3717 in order to provide the Monterey County Water Resources Agency the most accurate water use information possible in order to manage water resources. Groundwater extraction data are presented by measurement in acre-feet equal to 325,851 gallons.

2001 Monterey County Water Resources Agency Groundwater Extraction Summary Report

Monterey County Water Resources Agency Water Reports

Report provides summary of groundwater use within Zones 2, 2A and 2B

2000 Monterey County Water Resources Agency Groundwater Extraction Summary Report

Monterey County Water Resources Agency Water Reports

Annual report required by Monterey County Ordinances No. 3663 and 3717 in order to provide the Monterey County Water Resources Agency the most accurate water use information possible in order to manage water resources. Groundwater extraction data are presented by measurement in acre-feet equal to 325,851 gallons.

1997 Monterey County Water Resources Agency Groundwater Extraction Summary Report

Monterey County Water Resources Agency Water Reports

Annual report required by Monterey County Ordinances No. 3663 and 3717 in order to provide the Monterey County Water Resources Agency the most accurate water use information possible in order to manage water resources. Groundwater extraction data are presented by measurement in acre-feet equal to 325,851 gallons.

1995 Monterey County Water Resources Agency Groundwater Extraction Summary Report

Monterey County Water Resources Agency Water Reports

Annual report required by Monterey County Ordinances No. 3663 and 3717 in order to provide the Monterey County Water Resources Agency the most accurate water use information possible in order to manage water resources. Groundwater extraction data are presented by measurement in acre-feet equal to 325,851 gallons.

2014 Monterey County Water Resources Agency Groundwater Extraction Summary Report

Monterey County Water Resources Agency Water Reports

Annual report required by Monterey County Ordinances No. 3663 and 3717 in order to provide the Monterey County Water Resources Agency the most accurate water use information possible in order to manage water resources. Groundwater extraction data are presented by measurement in acre-feet equal to 325,851 gallons.

2011 Monterey County Water Resources Agency Groundwater Extraction Summary Report

Monterey County Water Resources Agency Water Reports

Annual report required by Monterey County Ordinances No. 3663 and 3717 in order to provide the Monterey County Water Resources Agency the most accurate water use information possible in order to manage water resources. Groundwater extraction data are presented by measurement in acre-feet equal to 325,851 gallons.

1957 May - Fifth Supplement To Bulletin 52-A, Salinas Basin Investigation, Basic Data 1954-1955

State and Federal Documents Relating to Monterey and San Luis Obispo Counties

The May 1957 fifth supplement to the Salinas Basin Investigation, Bulletin 52-A, contains basic hydrologic data for the period of spring 1954 through fall 1955.

Ec798 Residential On-Site Wastewater Treatment: An Overview, Janet R. Hygnstrom, Wayne Woldt, Sharon Skipton

University of Nebraska-Lincoln Extension: Historical Materials

Answers for homeowners, realtors and lenders about residential on-site wastewater treatment systems.

This publication will answer many questions that homeowners, potential homeowners, realtors and lenders have about residential on-site wastewater treatment systems. Information is based on Nebraska Department of Environmental Quality's "Title 124: Rules and Regulations for the Design, Operation and Maintenance of On-site Wastewater Treatment Systems.

Crop Updates 2005 - Farming Systems, David Stephens, Nicola Telcik, Ross Kingwell, Wayne Pluske, Bill Bowden, Mike Collins, Frances Hoyle, D. V. Murphy, N. Milton, M. Osman, L. K. Abbott, W. R. Cookson, S. Darmawanto, Bill Crabtree, Geoff Anderson, Darren Kidson, Ross Brennan, Nick Drew, Craig Scanlan, Lisa Sherriff, Bob French, Reg Lunt, Jeff Russell, Angie Roe, Ian Maling, Matthew Adams, George Yan, Mohammad Hamza, Glen Riethmuller, Wal Anderson, Angela Loi, Phil Nichols, Clinton Revell, David Ferris, Phil Ward, Andrea Hills, Sally-Anne Penny, David Hall, Michael Robertson, Don Gaydon, Tress Walmsley, Caroline Peek, Megan Abrahams, Paul Raper, Richard O'Donnell, Trevor Lacey, Meredith Fairbanks, David Tennant, Cameron Weeks, Richard Quinlan, Alexandra Edward, Chris Carter, Doug Hamilton, Peter Tozer, Renaye Horne, Tracey Gianatti, Paul Carmody, Ian Foster, Michele John, Ross George, Imma Farré, Ian Kininmonth, Dennis Van Gool, Neil Coles, Bill Porter, Louise Barton, Richard Harper, Peter Ritson, Tony Beck, Chris Mitchell, Michael Hill, Fiona Barker-Reid, Will Gates, Ken Wilson, Rob Baigent, Ian Galbally, Mick Meyer, Ian Weeks, Traci Griffin, D. Rodriguez, M. Probust, M. Meyers, D. Chen, A. Bennett, W. Strong, R. Nussey, I Galbally, M. Howden

Crop Updates

This session covers forty four papers from different authors:

PLENARY

1. 2005 Outlook, David Stephens and Nicola Telcik, Department of Agriculture

FERTILITY AND NUTRITION

2. The effect of higher nitrogen fertiliser prices on rotation and fertiliser strategies in cropping systems, Ross Kingwell, Department of Agriculture and University of Western Australia

3. Stubble management: The short and long term implications for crop nutrition and soil fertility, Wayne Pluske, Nutrient Management Systems and Bill Bowden, Department of Agriculture

4. Stubble management: The pros and cons of different methods, Bill Bowden, Department of Agriculture, Western Australia and Mike Collins, …

Hydrogeology Of Hanging Bog State Preserve: The Role Of Hillside Seeps In Draining The Iowan Surface, William L. Niemann

Journal of the Iowa Academy of Science: JIAS

Along the margin of the Cedar River Valley, groundwater discharges from eroded and weathered glacial materials of the Iowan Surface to modern alluvial deposits of the valley floor. Hanging Bog State Preserve, located along this topographic, geologic, and hydrologic boundary, represents one such groundwater discharge location, in the form of a perennial hillside seep. Based on detailed monitoring of surface water and groundwater levels within the preserve for a one-year period, it is shown that a significant quantity of groundwater, collected from a disproportionately large recharge area, is funneled to the valley wall at this site and subsequently carried to …

G02-1465 Crop Water Use In Western Nebraska, C. Dean Yonts

University of Nebraska-Lincoln Extension: Historical Materials

Whether your water originates from the ground or the river, water for irrigation is becoming limited due to diminishing supplies and increasing environmental needs. In many areas of the Nebraska Panhandle, groundwater levels are dropping due to over development of the aquifers. In river valleys, water shortages occur during periods of drought.

This NebGuide provides information on average weekly crop water use values for the major crops grown in western Nebraska. The information is best used for planning decisions before the season begins or for long term irrigation system planning.

Ec01-797 Filtration And Maintenance: Considerations For Subsurface Drip Irrigation (Sdi), Brian Benham, Jose O. Payero

University of Nebraska-Lincoln Extension: Historical Materials

When using Subsurface Drip Irrigation (SDI) systems, it is important to prevent clogging problems before they occur. The best prevention plan includes an effective filtration and water treatment strategy. Depending on the water source and its quality, various combinations of sand separation, filtration and chemical treatments may be required and are discussed here in this extension circular.

Ec98-746 Farm*A*Syst Nebraska's System For Assessing Water Contamination Risk: Introduction, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt

University of Nebraska-Lincoln Extension: Historical Materials

Groundwater provides nearly all the water for domestic use in rural Nebraska. It’s essential that the quality of our groundwater, along with that of our surface water resources, be protected. It is especially important to protect the drinking water supply on any homesites where a private domestic well is used. The risk to water quality of various activities at homesites and on surrounding lands varies. Identifying high-risk activities can help determine where to use limited financial and management resources. By increasing knowledge and using careful management, you can greatly reduce the risk of water contamination, often with little or no …

G98-1360 Drinking Water: Copper, Sharon Skipton, Delynn Hay

University of Nebraska-Lincoln Extension: Historical Materials

Too much copper in the human body can cause stomach and intestinal distress such as nausea, vomiting, diarrhea and stomach cramps. This NebGuide discusses how to determine if copper is in a domestic water supply and options that can be taken to reduce the copper in water. Copper rarely occurs naturally in water. Most copper contamination in drinking water happens in the water delivery system, as a result of corrosion of the copper pipes or fittings. Copper piping and fittings are widely used in household plumbing.

Ec98-771 Farm*A*Syst Nebraska’S System For Assessing Water Contamination Fact Sheet 8: Improving Household Wastewater Treatment, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt

University of Nebraska-Lincoln Extension: Historical Materials

A properly installed and maintained system for treating and disposing of household wastewater will minimize the impact of that system on groundwater and surfacewater. State and local codes specify how wastewater systems must be designed, installed, and maintained. For example, Title 124 regulates the design, operation, and maintenance of septic tank systems in Nebraska. In addition, federal and state regulations guide the stabilization and land application of wastewater septage.

Ec98-792 Farm*A*Syst Nebraska’S System For Assessing Water Contamination Fact Sheet 16: Improving Crop Pesticide Application Management, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt

University of Nebraska-Lincoln Extension: Historical Materials

Though pesticides are especially harmful to the target pest, they are also potentially harmful to most living and breathing creatures and non-target plant life. Proper handling and application management of pesticides are important to protect you and to protect surface and groundwater from contamination. Pesticides were first found in groundwater in the 1970s. Prior to that, the general belief was that pesticides did not leach into the groundwater with normal use.

Ec98-750 Farm*A*Syst Nebraska’S System For Assessing Water Contamination Risk Worksheet 12: Silage Storage, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt

University of Nebraska-Lincoln Extension: Historical Materials

Why should I be concerned? Silage is an important feed for livestock-based agriculture. When properly harvested and stored, silage poses little or no pollution threat, but improper handling can lead to a significant flow of silage juices (or leachate) from the silo. Leachate is an organic liquid that results from pressure in the silo or from extra water entering the silo. It is usually a problem only when silage is fresh, or just after storage. This loss of leachate represents a loss of nutrient value from the silage.

Ec98-748 Farm*A*Syst Nebraska’S System For Assessing Water Contamination Risk Worksheet 2: Site Evaluation, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt

University of Nebraska-Lincoln Extension: Historical Materials

Why is the site evaluation important? The effect of farm, ranch or homesite practices on groundwater depends in part on the physical characteristics of your site: soil type, subsurface characteristics and depth to groundwater. That’s why evaluating the soils and geologic characteristics of your site is such an important step in protecting the groundwater you drink. This evaluation focuses primarily on the farmstead or homesite and risk to groundwater, but, to a limited extent, also addresses surface water. The worksheet can be applied to land beyond the farmstead or homesite, but the variation in soils and geologic materials would have …

Ec98-754 Farm*A*Syst Nebraska’S System For Assessing Water Contamination Risk Worksheet 7: Hazardous Materials And Waste Management, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt

University of Nebraska-Lincoln Extension: Historical Materials

Why should I be concerned? Consider the variety of products commonly used in households, on acreages and on farms: paints, solvents, oils, cleaners, wood preservatives, batteries, adhesives, and pesticides. Also consider the amount of these products which goes unused or is thrown away. Some common disposal practices can create an unsafe environment around the home and may contaminate groundwater. Additionally, many of these common disposal practices violate Nebraska law.

Ec98-752 Farm*A*Syst Nebraska’S System For Assessing Water Contamination Risk Worksheet 9: Livestock Manure Storage, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt

University of Nebraska-Lincoln Extension: Historical Materials

Why should I be concerned? Accumulating manure in storage incurs certain risks to the environment and to human and animal health unless appropriate precautions are taken.Manure can contribute nutrients and disease-causing organisms to both surface water and groundwater.

Ec98-766 Farm*A*Syst Nebraska’S System For Assessing Water Contamination Worksheet 3: Drinking Water Well Condition, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt

University of Nebraska-Lincoln Extension: Historical Materials

Why should I be concerned? Essentially all of Nebraska’s rural residents use groundwater to supply their drinking water and farm needs. Wells should provide clean water. If wells are improperly constructed or maintained, however, they can allow bacteria, pesticides, fertilizer, oil products, or other pollutants to contaminate groundwater. These contaminants can put family, pets and livestock health at risk.