NU Water-Related Research in District 1

The list below shows water-related research being conducted within your district or that affects your district. They are sorted by water topic, then by primary contact's last name.

Displaying 24 records found for District 32


Topic Climate
Project's Primary Contact Information
Name Hu, Qi (Steve)
Unit School of Natural Resources
Email qhu2@unl.edu
Phone 402-472-6642
Web Page http://snr.unl.edu/aboutus/who/people/faculty-member.asp?pid=54
Project Information
Title Understanding Farmers' Forecast Use from Their Beliefs, Values, Social Norms, and Perceived Obstacles
Other(s) Lisa M. Pytlik Zillig, Center for Instructional Innovation, lpytlikzillig2@unl.edu; Gary D. Lynne, Agricultural Economics, glynne1@unl.edu; Alan J. Tomkins, Public Policy Center, atomkins2@unl.edu; William J. Waltman; Michael J. Hayes, School of Natural Resources, mhayes2@unl.edu; Kenneth G. Hubbard, School of Natural Resources, khubbard1@unl.edu; Ikrom Artikov; Stacey J. Hoffman, Public Policy Center, shoffman3@unl.edu; Donald A. Wilhite, School of Natural Resources, dwilhite2@unl.edu 
Description

Although the accuracy of weather and climate forecasts is continuously improving and new information retrieved from climate data is adding to the understanding of climate variation, use of the forecasts and climate information by farmers in farming decisions has changed little. This lack of change may result from knowledge barriers and psychological, social, and economic factors that undermine farmer motivation to use forecasts and climate information. According to the theory of planned behavior (TPB), the motivation to use forecasts may arise from personal attitudes, social norms, and perceived control or ability to use forecasts in specific decisions. These attributes are examined using data from a survey designed around the TPB and conducted among farming communities in Otoe, Seward and Fillmore counties. These counties were chosen to represent dryland, mixed dryland and irrigated, and mostly irrigated cropping systems typical in the western U.S. Corn Belt region.

There were three major findings:

  1. the utility and value of the forecasts for farming decisions as perceived by farmers are, on average, around 3.0 on a 0-7 scale, indicating much room to improve attitudes toward the forecast value.
  2. The use of forecasts by farmers to influence decisions is likely affected by several social groups that can provide "expert viewpoints" on forecast use.
  3. A major obstacle, next to forecast accuracy, is the perceived identity and reliability of the forecast makers. Given the rapidly increasing number of forecasts in this growing service business, the ambiguous identity of forecast providers may have left farmers confused and may have prevented them from developing both trust in forecasts and skills to use them.

These findings shed light on productive avenues for increasing the influence of forecasts, which may lead to greater farming productivity. In addition, this study establishes a set of reference points that can be used for comparisons with future studies to quantify changes in forecast use and influence.

Project Support US Department of Commerce National Oceanic and Atmospheric Administration's Human Dimensions in Global Change Program
Project Website
Report Hu_etal_JAMC_2006.pdf
Current Status Published in the Journal of Applied Meteorology and Climatology 2006 45:1190-1201
Topic Climate
Project's Primary Contact Information
Name Lynne, Gary
Unit Agricultural Economics
Email glynne1@unl.edu
Phone 402-472-8281
Web Page http://agecon.unl.edu/lynne
Project Information
Title Understanding the Influence of Climate Forecasts on Farmer Decisions as Planned Behavior
Other(s) Ikrom Artikov; Stacey J. Hoffman, Public Policy Center, shoffman3@unl.edu; Lisa M. Pytlik Zillig, Center for Instructional Innovation, lpytlikzillig2@unl.edu; (Steve) Qi Hu, School of Natural Resources, qhu2@unl.edu; Alan J. Tomkins, Public Policy Center, atomkins2@unl.edu; Kenneth G. Hubbard, School of Natural Resources, khubbard1@unl.edu; Michael J. Hayes, School of Natural Resources, mhayes2@unl.edu; and William J. Waltman 
Description

Results of a set of four regression models applied to recent survey data of farmers in Otoe, Seward and Fillmore counties suggest the causes that drive farmer intentions of using weather and climate information and forecasts in farming decisions. The model results quantify the relative importance of attitude, social norm, perceived behavioral control, and financial capability in explaining the influence of climate-conditions information and short-term and long-term forecasts on agronomic, crop insurance, and crop marketing decisions.

Attitude, serving as a proxy for the utility gained from the use of such information, had the most profound positive influence on the outcome of all the decisions, followed by norms. The norms in the community, as a proxy for the utility gained from allowing oneself to be influenced by others, played a larger role in agronomic decisions than in insurance or marketing decisions. In addition, the interaction of controllability (accuracy, availability, reliability, timeliness of weather and climate information), self-efficacy (farmer ability and understanding), and general preference for control was shown to be a substantive cause. Yet control variables also have an economic side: The farm-sales variable as a measure of financial ability and motivation intensified and clarified the role of control while also enhancing the statistical robustness of the attitude and norms variables in better clarifying how they drive the influence. Overall, the integrated model of planned behavior from social psychology and derived demand from economics, that is, the "planned demand model," is more powerful than models based on either of these approaches alone. Taken together, these results suggest that the "human dimension" needs to be better recognized so as to improve effective use of climate and weather forecasts and information for farming decision making.

Project Support US Department of Commerce National Oceanic and Atmospheric Administration's Human Dimensions in Global Change Program
Project Website
Report Lynne_Climate.pdf
Current Status Published in the Journal of Applied Meteorology and Climatology 2006 45:1202-1214
Topic Crop Water Use
Project's Primary Contact Information
Name Cassman, Ken
Unit Agronomy and Horticulture
Email kcassman1@unl.edu
Phone 402-472-5554
Web Page http://agronomy.unl.edu/cassman
Project Information
Title Real-time Decision Support System for Deficit Irrigation - Hybrid-Maize
Other(s)  
Description

Hybrid-Maize is a computer program that simulates the growth of a corn crop under non-limiting or water-limited (rainfed or irrigated) conditions based on daily weather data. Specifically, it allows the user to:

  • assess the overall site yield potential and its variability based on historical weather data
  • evaluate changes in attainable yield using different combinations of planting date, hybrid maturity, and plant density
  • explore options for optimal irrigation management
  • conduct in-season simulations to evaluate actual growth up to the current date based on real-time weather data, and to forecast final yield scenarios based on historical weather data for the remainder of the growing season

Hybrid-Maize does NOT allow assessment of different options for nutrient management nor does it account for yield losses due to weeds, insects, diseases, lodging, and other stresses. Hybrid-Maize has been evaluated primarily in rainfed and irrigated maize systems of the U.S. Corn Belt. Caution should be exercised when applying this model to other environments as this may require changes in some of the default model parameters.

This project will develop a similar tool for irrigation scheduling for Nebraska soybean producers, and a real-time decision support system for deficit irrigation on corn, both based upon the Hybrid-Maize model. These tools will assist producers who have limited irrigation water supplies to optimize irrigation scheduling in real time for maximum yields, in particular during water-short years.

Project Support Nebraska Natural Resources Conservation Service, Nebraska Soybean Board
Project Website http://hybridmaize.unl.edu/
Report
Current Status Continuing - Software Available
Topic Crop Water Use
Project's Primary Contact Information
Name Irmak, Suat
Unit Biological Systems Engineering
Email sirmak2@unl.edu
Phone 402-472-4865
Web Page http://bse.unl.edu/sirmak2
Project Information
Title Nebraska Agricultural Water Management Demonstration Network
Other(s) Gary Zoubek, York County Extension, gzoubek@unl.edu 
Description

The Nebraska Agricultural Water Management Demonstration Network (NAWMDN) encourages the adoption of newer technologies that will enable farmers to use water and energy resources associated with irrigated crop production efficiently. NAWMDN launched in 2005 and started with 20 growers from south central Nebraska who joined the Network as collaborators. In 2008 an online tool named ETgage was added to enable participation by growers throughout Nebraska.

The NAWMDN ETgage project is one part of a system for testing cutting-edge technologies and creating a network with growers, UNL Extension, NRDs, NRCS, and crop consultants, and other interested partners, that will enable the adoption of water and energy conservation practices. The simplicity of the use and interpretation of the ETgage data, as well as its economic feasibility, makes it easy for farmers to monitor crop water use for effective irrigation management. In this project ETgages are used to estimate crop water use, and Watermark sensors are used to measure soil moisture to determine irrigation timing and amount. Each year, NAWMDN team members organize educational meetings during the growing season and over the winter to implement the project, teach participants how to use the ETgage and Watermark sensors for irrigation management, review the results, set goals, and obtain grower feedback. This project has been reported at local, regional, and national meetings.

In 2005, there were 18 demonstration sites. Some of the ETgage and Watermark sensors were read by growers and some were read weekly by Network core members. In 2006, the second year of the project, there were more than 50 demonstration sites. In 2007 more than 125 cooperators in nine NRDs and 22 counties were involved. In the fall of 2007, 89 producers involved in the NAWMDN were surveyed; of those 56% responding, the estimated corn water savings varied from 0-7.5" with an average savings of 2.6," while soybeans water savings varied from 0-4.8" with an average of 2.1." Using 2007 diesel prices, this resulted in total energy savings of $2,808,000 and $2,269,800 for corn or soybeans over 117,000 acres.

In 2008 over 300 active participants from 25 counties in 9 of Nebraska's 23 NRDs. An interactive web site was also created to inform growers and other clients about the network and to educate producers and industry professionals about using these two tools along with crop stage of growth information to make irrigation management decisions. This interactive web site has engaged the cooperating producers and enhanced learning. The site consists of a map of Nebraska's 93 counties on which producers can select specific counties to find a Google gps map with ETgauge locations marked. Producers can click on specific sites to see the weekly reference evapoptranspiration (ET) reported by producers. The site also includes information about the NAWMDN and how to use the various tools.

For detailed information, see Nebraska Agricultural Water Management Demonstration Network: Integrating Research and Extension/Outreach.

Project Support Partners include personnel from 19 extension offices, the Little Blue NRD, the Upper Big Blue NRD, Nebraska Association of Resources Districts, Nebraska Natural Resources Conservation Service, South Central Agricultural Laboratory, and the Central Nebraska Public Power and Irrigation District.
Project Website http://water.unl.edu/cropswater/nawmdn
Report
Current Status Continuing
Topic Crop Water Use
Project's Primary Contact Information
Name Irmak, Suat
Unit Biological Systems Engineering
Email sirmak2@unl.edu
Phone 402-472-4865
Web Page http://bse.unl.edu/sirmak2
Project Information
Title A Decision Support Tool to Increase Energy and Crop Water Use Efficiency for Corn and Soybean Production
Description

Energy costs coupled with limitations in water availability are threatening the sustainability of irrigation in the state. Energy costs for irrigation rose almost 100 percent for typical Nebraska irrigators from the spring of 2003 to the summer of 2006 and continue to rise sharply. The rising cost of fuel and the limited availability of water make producing maximum crop yield with minimal input imperative.

Nebraska growers need scientifically based and practical management strategies that can aid them in their decision-making process to enhance crop water-use efficiency and reduce energy use to achieve maximum profitability. Growers are looking for answers on how to make a maximum use of limited irrigation water and how to manage irrigation water to reduce pumping cost.

Crop simulation models with the capability of "real-time" assessment of crop and soil water status and yield prediction based on historical climate data represent a powerful new tool to help improve irrigation decisions and increase water-use efficiency especially for situations where the amount of available water supply is less than the full requirement for maximum crop yield. This project validates and demonstrates a decision-support tool for a real-time irrigation scheduling period, and releases the new tool as a software program for use by crop producers, crop consultants, and industry professionals. This tool will be used to assess energy requirement for different irrigation regimes to aid growers and state and federal agencies to make better-informed management decisions.

Project Support Upper Big Blue Natural Resources District, Gard Fund
Project Website
Report
Current Status Underway
Topic Drought
Project's Primary Contact Information
Name Hanson, Paul
Unit School of Natural Resources
Email phanson2@unl.edu
Phone 402-472-7762
Web Page http://snr.unl.edu/aboutus/who/people/faculty-member.asp?pid=758
Project Information
Title Pre-Historic Drought Records from the Eastern Platte River Valley
Other(s) R. Matt Joeckel, School of Natural Resources, rjoeckel3@unl.edu; Aaron Young, School of Natural Resources, ayoung3@unl.edu 
Description Recent studies have related large-scale dune activity in the Nebraska Sandhills and elsewhere on the western Great Plains to prehistoric megadroughts. At the eastern margin of the Great Plains, however, little or no effort has been expended toward identifying the impacts and severity of these climatic events. The eastern margin of the Great Plains should be of particular interest in paleclimate studies because it represents an important biogeographic boundary that may have shifted over time. In dunes around the present confluence of the Loup and Platte Rivers near Duncan, Nebraska, optical dating contrains, for the first time, the chronology of dune activity in the central-eastern margin of the Great Plains. A total of 17 optical age estimates taken from dune sediments clearly indicate two significant periods of dune activation at 5,100 to 3,500 years ago and 850-500 years ago. These reconstructed time intervals overlap both periods of large-scale dune activity in the Nebraska Sandhills and ancient droughts identified from other paleoclimate proxy records on the western Great Plains. The agreement between results from the eastern margin of the Great Plains and data from farther west indicate that megadroughts were truly regional in their effect. In order to further test a hypothesis of geographically-widespread megadrought effects, future work will date other dune deposits in eastern Nebraska from sites along the Loup and Elkhorn Rivers, as well as dunes in east-central Kansas and western Iowa.
Project Support United States Geological Survey Statemap Program
Project Website
Report Hanson Eastern Platte Valley.pdf
Current Status Published in Geomorphology 103 (2009) 555-561
Topic Economics
Project's Primary Contact Information
Name Schoengold, Karina
Unit Department of Agricultural Economics
Email kschoengold2@unl.edu
Phone 402-472-2304
Web Page http://snr.unl.edu/aboutus/who/people/faculty-member.asp?pid=731
Project Information
Title Analysis of Potential Groundwater Trading Programs for Nebraska
Description

The goals of a recently funded project to measure the potential benefits of developing a groundwater trading market in Nebraska is discussed in this Cornhusker Economics article. Groundwater is a major component of agricultural water use. In extensive regions of the Western United States, rural agricultural economies rely entirely on groundwater. At the same time as providing water for human needs, groundwater is also an input to streams, wetlands and riparian areas that provide important ecosystem services. Ongoing groundwater pumping will deplete flows in adjacent streams, leading to potential conflict between human and environmental uses of water. In the last decades, many conflicts over transboundary allocations of water, endangered species and instream and riparian habitat have been driven by surface water-groundwater interaction. For example, claims have been filed with the United States Supreme Court over the impacts of groundwater use on flows of transboundary rivers for the Pecos River (Texas vs. New Mexico), the Arkansas River (Kansas vs. Colorado) and the Republican River (Kansas vs. Nebraska and Colorado). Groundwater has typically been viewed as private property, and its use in agriculture is generally neither regulated nor quantified precisely. However, there is growing interest in moving to systems that regulate groundwater use. The ability to trade groundwater allocations is often a part of such conversations.

Project Support National Science Foundation; USDA
Project Website
Report Groundwater_Trading_Nebraska.pdf
Current Status Underway
Topic Extension
Project's Primary Contact Information
Name Skipton, Sharon
Unit Southeast Research and Extension Center
Email sskipton1@unl.edu
Phone 402-472-3662
Web Page http://www.southeast.unl.edu/staffdir/Skipton_Sharon
Project Information
Title Southeast Research and Extension Center
Other(s) Gary Zoubek, York County Extension, gzoubek@unl.edu 
Description Each day University of Nebraska Extension makes a difference in the lives of adults and youth. The faculty and staff in the Southeast Research and Extension Center and the 28 County Offices work to bring relevant researched based information to people in communities, towns and urban centers. Our efforts rely increasingly on partnerships with government agencies, business, industry, schools and community organizations. Working together with our partners Extension strives to strengthen the social, economic and environmental base of Nebraska's communities. Our programs must be ever-changing as Extension listens and responds to issues as they evolve. The Southeast Research and Extension District is unique because it serves both urban and rural communities Nebraska. The faculty and staff are committed to bringing the resources of the University and its research based information to the individuals and communities of Southeast Nebraska.
Project Support Varies according to program and project - for more information see http://www.southeast.unl.edu/
Project Website http://www.southeast.unl.edu/
Report
Current Status Continuous
Topic Hydrology
Project's Primary Contact Information
Name Chen, Xun-Hong
Unit School of Natural Resources
Email xchen2@unl.edu
Phone 402-472-0772
Web Page http://snr.unl.edu/aboutus/who/people/faculty-member.asp?pid=19
Project Information
Title Hydrologic Connections in the Big and Little Blue River Basins
Other(s) Cheng Cheng, School of Natural Resources, ccheng2@unl.edu 
Description Over extraction of groundwater near a stream can lower stream stage and induce streamflow depletion when the stream and aquifer are hydrologically connected. The Little Blue River Basin is an area of intensive groundwater development for irrigation, and the streamflow depletion in this basin was determined by an analog model (Emery, 1966). However, the post audit of the model (Alley and Emery, 1986) suggested that the decline of water-levels was overestimated and streamflow depletion was underestimated. Therefore, it is necessary to re-evaluate stream-aquifer interactions in the basin. In this study, an area is chosen for this analysis from the basin and three main streams -- the Little Blue River, Big Sandy Creek, and Spring Creek are included. Channel sediments and structures play an important role in determining stream-aquifer interactions. Firstly, field and laboratory methods including geoprobe logging and permeameter tests are utilized to investigate the channel deposits in the three main streams in the Little Blue River Basin. Results show that channels have low hydraulic-permeable layers which reduce their hydraulic connections to the adjacent aquifers. Secondly, a groundwater flow model is constructed to identify the hydraulic properties of the aquifer and evaluate streamflow depletion under groundwater withdrawals in the study area. Modeling results indicate that streamflow depletion is very low and aquifer storage loss is the main source of groundwater pumpage.
Project Support Upper Big Blue Natural Resources Distrect, Lower Big Blue Natural Resources District, Little Blue Natural Resources District
Project Website
Report
Current Status Completed
Topic Hydrology
Project's Primary Contact Information
Name Chen, Xun-Hong
Unit School of Natural Resources
Email xchen2@unl.edu
Phone 402-472-0772
Web Page http://snr.unl.edu/aboutus/who/people/faculty-member.asp?pid=19
Project Information
Title Investigation of Stream-Aquifer Hydrologic Relationship for Clear Creek in Polk and Butler Counties
Other(s) Weihong Dong, Jilin University; Zhaowei Wang, School of Natural Resources; Gengxin Ou, School of Natural Resources; Can Liu, School of Natural Resources, can.liu1989@huskers.unl.edu 
Description

Vertical hydraulic conductivities (Kv) of both streambed and point bars can influence water and solute exchange between streams and surrounding groundwater systems. The sediments in point bars are relatively young compared to the older sediments in the adjacent aquifers but slightly older compared to submerged streambeds. Thus, the permeability in point bar sediments can be different not only from regional aquifer but also from modern streambed. However, there is a lack of detailed studies that document spatial variability of vertical hydraulic conductivity in point bars of meandering streams. In this study, the authors proposed an in situ permeameter test method to measure vertical hydraulic conductivity of the two point bars in Clear Creek, Nebraska, USA. We compared the Kv values in streambed and adjacent point bars through 45 test locations in the two point bars and 51 test locations in the streambed.

The Kv values in the point bars were lower than those in the streambed. Kruskal–Wallis test confirmed that the Kv values from the point bars and from the channel came from two statistically different populations. Within a point bar, the Kv values were higher along the point bar edges than those from inner point bars. Grain size analysis indicated that slightly more silt and clay particles existed in sediments from inner point bars, compared to that from streambed and from locations near the point bar edges. While point bars are the deposits of the adjacent channel, the comparison of two groups of Kv values suggests that post-depositional processes had an effect on the evolution of Kv from channel to point bars in fluvial deposits.

We believed that the transport of fine particles and the gas ebullition in this gaining stream had significant effects on the distribution of Kv values in a streambed-point bar system. With the ageing of deposition in a floodplain, the permeability of point bar sediments can likely decrease due to reduced effects of the upward flow and gas ebullition.

Project Support Upper Big Blue Natural Resources District, Chinese Ministry of Education, National Natural Science Foundation of China
Project Website
Report Chen_Hydraulic_Conductivity.pdf
Current Status Completed
Pic 1 Project Image
Pic Caption 1 Map showing the study site in Clear Creek, Nebraska 
Pic 2 Project Image 2
Pic Caption 2 Schematic for the in situ permeameter test in the point bars 
Topic Hydrology
Project's Primary Contact Information
Name Harvey, F. Edwin
Unit School of Natural Resources
Email feharvey1@unl.edu
Phone 402-472-8237
Web Page http://eas.unl.edu/people/faculty_page.php?lastname=Harvey&firstname=Ed&type=ADJ
Project Information
Title Hydrologic Research in the Rainwater Basin Wetlands of South-Central Nebraska
Description

As part of this project, Harvey and his students are conducting research to unravel the hydrology of central Nebraska's Rainwater Basin wetlands. These wetlands are of international importance as habitat for millions of migratory water birds. In addition, these playa wetlands may contribute to groundwater recharge and water quality improvement. However, many of the wetlands have been drained, and those remaining suffer functional impairment due to sedimentation and pesticide and fertilizer runoff.

Most of the remaining Rainwater Basin wetlands are geographically isolated. Currently research is underway to investigate the role of these wetlands in providing groundwater recharge and water quality improvement. This is a significant environmental issue of concern because groundwater in this region is of vital importance, providing drinking and irrigation water. Moreover, groundwater levels are declining throughout much of the region. Levels of nitrate and atrazine exceed drinking water standards in some parts of the basin. Most of the remaining playa wetlands are impaired by sediment and there is an active program to restore the wetlands by removing this sediment. Study sites are located in Phelps, Kearney, Clay, Fillmore, and York counties (see map below).

Three components need to be measured when establishing a hydrologic budget for these closed basin wetlands which are surface storage, evapotranspiration (ET), and groundwater recharge. ET is calculated by the Bowen-Ratio Energy Budget (BREB) Method with the aid of a Bower Tower. Surface storage and recharge data will be aided by stilling wells and drive-point wells, respectively. Hydroperiods and plant community diversity are being determined before and after sediment removal to evaluate the impact of in-washed sediments on recharge and underlying groundwater quality. Chloride concentrations obtained from upland runoff collectors will be incorporated into the Chloride Mass-Balance Method along with precipitation and sediment chloride concentrations to obtain recharge fluxes for a wetland site.

Two Master's theses and one Bachelor's thesis have been completed as part of this project:

  • Wilson, Richard D. (2010), Evaluating Hydroperiod Response in the Rainwater Basin Wetlands of South-Central Nebraska, MS Thesis, UNL School of Natural Resources, 163 p.
  • Foster, Sarah E., (2010), Temporal and Spatial Variations of Ions, Isotopes and Agricultural Contaminants in Surface Waters and Groundwater of Nebraska’s Rainwater Basin Wetland Region, MS Thesis, UNL Department of Earth and Atmospheric Sciences, 185 p.
Project Support U.S. Environmental Protection Agency
Project Website http://snr.unl.edu/harvey/projectrainwater.htm
Report
Current Status Continuing
Pic 1 Project Image
Pic Caption 1 The Rainwater Basin area of Nebraska. 
Topic Hydrology
Project's Primary Contact Information
Name Korus, Jesse
Unit Conservation and Survey Division
Email jkorus3@unl.edu
Phone 402-472-7561
Web Page http://snr.unl.edu/aboutus/who/people/staff-member.asp?pid=1010
Project Information
Title Eastern Nebraska Water Resources Assessment (ENWRA)
Other(s)

Paul Hanson, School of Natural Resources / Conservation and Survey Division, phanson2@unl.edu; Sue Lackey, School of Natural Resources / Conservation and Survey Divison, slackey1@unl.edu; Matt Marxsen, School of Natural Resources / Conservation and Survey Division, mmarxsen2@unl.edu

Dana Divine, ENWRA Project Coordinator, ddivine@lpsnrd.org

Visit the Nebraska Maps and More website (http://nebraskamaps.unl.edu/home.asp) to order an excellent publication that describes this project more in-depth, Bulletin 1: Eastern Nebraska Water Resources Assessment (ENWRA) Introduction to a Hydrogeological Study.

 
Description

Eastern Nebraska contains 70% of the state's population, but is most limited in terms of the state's groundwater supplies. The population in this region is expected to increase; thus the need for reliable water supplies is paramount. Natural resources districts (NRDs), charged with ground water management in Nebraska, seek to improve their management plans in response to growing populations, hydrologic drought, and new conjunctive management laws. Detailed mapping and characterization is necessary to delineate aquifers, assess their degree of hydrologic connection with streams and other aquifers, and better predict water quality and quantity.

In a collaborative effort between local, state, and federal agencies, the ENWRA project has been initiated to gain a clearer understanding of the region's groundwater and interconnected surface water resources. These resources can be difficult to characterize because of the complex geology created by past glaciations. Acquiring geologic and hydrologic data in the eastern, or glaciated, part of Nebraska requires the use of multiple, innovative techniques. Currently, little is known about which techniques are most effective and feasible. Once identified, the most effective and feasible tools will be used to provide data, interpretations, and models for improved water resources management.

The ENWRA group has established three pilot test sites for intensive study using a variety of investigative techniques. The goal of the initial work being done at the three pilot test sites is to determine the location, extent, and connectivity of aquifers with surface waters, with the hope of expanding these investigative techniques across other portions of eastern Nebraska. The pilot test sites are located near Oakland, Ashland, and Firth with each site exhibiting differing geologic conditions. The techniques that will be utilized in the study include: 1) helicopter electromagnetic (HEM) surveys; 2) ground-based geophysical surveys; 3) test hole drilling; and 4) geochemical analysis, just to name a few. So far HEM surveys were completed over approximately one township at each site. Other techniques were used to provide "ground truth" data to support the HEM interpretations.

The agencies involved in the ENWRA are:

  • Lower Platte South Natural Resources District
  • Lower Platte North Natural Resources District
  • Papio Missouri River Natural Resources District
  • Lower Elkhorn Natural Resources District
  • Lewis and Clark Natural Resources District
  • Nemaha Natural Resources District
  • United States Geological Survey
  • University of Nebraska Lincoln Conservation and Survey Division
  • Nebraska Department of Natural Resources
  • Nebraska Department of Environmental Quality
Project Support Nebraska Department of Natural Resources Interrelated Water Management Plan/Program
Project Website http://www.enwra.org/
Report
Current Status HEM surveys are complete and 3-D aquifer diagrams have been prepared. Report Status: Ashland area report has been prepared and is under review and the Firth area report is being written.
Pic 1 Project Image
Pic Caption 1 Eastern Nebraska Water Resources Assessment (ENWRA) Study Sites. 
Topic Hydrology
Project's Primary Contact Information
Name Rundquist, Donald
Unit Center for Advanced Land Management Information Technologies
Email drundquist1@unl.edu
Phone 402-472-7536
Web Page http://snr.unl.edu/aboutus/who/people/faculty-member.asp?pid=103
Project Information
Title Nebraska Airborne Remote Sensing Program
Other(s) Rick Perk, CHAMP Project Manager, rperk1@unl.edu; Anatoly Gitelson, gitelson@calmit.unl.edu; Sunil Narumalani, sunil@calmit.unl.edu; Merlin Lawson, mlawson@calmit.unl.edu 
Description

CALMIT has joined forces with the UNL Department of Electrical Engineering and the UNO Aviation Institute to develop an aerial remote sensing research platform known as the Nebraska Airborne Remote Sensing Program (NARSP). A specially modified Piper Saratoga aircraft is being used as the base platform for deployment of a number of research grade remote sensing instruments. CALMIT's airborne remote sensing activities are centered around a suite of instruments associated with an AISA Eagle hyperspectral imaging system. This specific program is identified as CALMIT Hyperspectral Aerial Monitoring Program (CHAMP).

This technology has contributed to several projects:

  • To determine the condition and monitor the changing quality of Nebraska's 2500+ lakes and ponds - funded by the Nebraska Department of Environmental Quality and the U.S. Environmental Protection Agency.
  • To conduct a retrospective assessment of several different remote sensing platforms, with an emphasis on those remote sensing methods (e.g., airborne, Landsat, MODIS and MERIS) that most likely can be used for monitoring lakes routinely and operationally over a regional spatial extent - in collaboration with the North American Lake Management Society and the Universities of Minnesota and Wisconsin
  • To conduct remote sensing of coral communities.
  • To identify and delineate areas of noxious weeds and invasive species by using satellite imagery, hyperspectral aerial imagery, and GPS technology to aid in inventory surveys and mapping of these areas and assess the effectiveness of ongoing weed management actions.
  • To use airborne and satellite remote sensing systems to investigate and improve approaches to managing wheat streak mosaic (WSM), the most severe disease of winter wheat in the Great Plains.
Project Support Platform Development - National Science Foundation, National Aeronautics and Space Administration; specific project support noted above when possible.
Project Website calmit.unl.edu/champ/index.php
Report
Current Status Continuous
Topic Invasive Species
Project's Primary Contact Information
Name Allen, Craig
Unit Nebraska Cooperative Fish and Wildlife Research Unit
Email callen3@unl.edu
Phone 402-472-0229
Web Page http://snr.unl.edu/aboutus/who/people/faculty-member.asp?pid=647
Project Information
Title Monitoring, Mapping and Risk Assessment for Non-Indigenous Invasive Species in Nebraska
Other(s) Karie Decker, Nebraska Invasive Species Project Coordinator, invasives@unl.edu 
Description

Biological invasions are a growing threat to both human enterprise and ecological systems. This project provides resources to the public and private sector on: 1) the potential spread and impact of non-indigenous species in Nebraska; 2) actual and potential maps of non-indigenous species range (habitat specific maps at high resolution); 3) information regarding identification and management of potential invaders; 4) centralized information on management and impacts and potential spread of currently established non-indigenous species (a web portal); and 5) outreach within Nebraska to county-level governments and individual stakeholders regarding the management, surveillance and control of non-indigenous species. On February 7-8, 2008 a conference on non-indigenous species impacts, spread and management was held, focusing on state-of-our-knowledge and coordination of disparate management and information-provisioning efforts with a goal towards unification of disparate efforts.

This project is meant to build momentum towards a cohesive non-indigenous species biosecurity and management system in Nebraska that is integrated and relatively seamless across institutional boundaries. Spatially - based risk assessments that focus on non-indigenous invasive species impacts on at - risk native species and communities in Nebraska have been initiated with funding from the U.S. Geological Survey and the Nebraska Game and Parks Commission. The results and predictive models generated by this project will be delivered and made widely available to policy makers, management practitioners and landowners in Nebraska. Additional general information about potential invasive species and their impacts will be made easily accessible. Most of the goals listed above will produce and disseminate products that are dynamic, with interactive elements for the public and managers, including mapping of habitat-specific current and potential distributions of invasive species as well as a portal through which the public can inform the entities responsible for management of invasive species occurrence and spread - and vice versa.

Project Support U.S. Geological Survey, Nebraska Game and Parks Commission, Nebraska Environmental Trust
Project Website http://snr.unl.edu/invasives
Report
Current Status Continuing
Topic Production Agriculture
Project's Primary Contact Information
Name Burbach, Mark
Unit School of Natural Resources
Email mburbach1@unl.edu
Phone 402-472-8210
Web Page http://snr.unl.edu/aboutus/who/people/faculty-member.asp?pid=268
Project Information
Title Personality Characteristics and Conservation Tillage: Understanding Farmers to Improve Surface Water Quality in Tuttle Creek Lake, Kansas
Other(s) Courtney Quinn 
Description

Farmers chose to adopt conservation practices for varying reasons. There are many models of pro-environmental behaviors that include personal, physical, economic, and institutional factors. Models of farmer behavior that include personal factors often only examine farmers' education level and years farming. Testing additional factors would greatly improve our understanding of the relationship between farmers' knowledge, skills, and abilities and conservation tillage. This study examines three potential variables in relation to farmers' conservation tillage practices that benefit surface water quality, environmental attitude, work motivation, and moral reasoning about the environment.

This study focused on the Tuttle Creek Watershed, specifically Gage and Jefferson counties in southeast Nebraska and Washington and Marshall counties in northeast Kansas. Land use in this watershed is primarily agricultural, with approximately 72% in corn, soybean, grain sorghum or other crops, 10% in pastureland, and 10% in woodland. Herbicides are used extensively to control agricultural weeds. Soil infiltration rates in this area range from moderate to very slow. As a consequence, most soils have a moderate to very high potential of transporting contaminants to surface waters. As the base of the watershed, Tuttle Creek Reservoir is listed as impaired for siltation, eutrophication, atrazine and alachlor. Extremely high suspended solids and nutrient loads enter the reservoir during storm events and excessive siltation has occurred in the upper third of the original conservation pool reducing its volume by approximately 30%. In November 2007 4000 mail surveys were delivered to farmers in the study area. Data on the farmers' tillage practices and the personality variables, hypothesized to be antecedents to tillage practices, were collected. 505 surveys were used for this analysis.

Survey results suggest that farmers motivated by tangible rewards, personal standards, and a strong sense of purpose are likely to use conservation tillage. Farmers who obtained a higher degree of education have learned either a concern for the environment or the ability to apply newer conservation technologies. Farmers with higher sales also use more conservation practices. This suggests that income allows farmers to implement practices that may have high initial start-up costs. Farmers who earn a high percentage of their family income from farming also use more conservation practices. A heavy dependence on the success of the farm may cause farmers to have a long-term outlook and see the benefits of using conservation.

The negative relationship between use of conservation tillage and Self-concept External motivation suggests that efforts to encourage adoption of no-till practices need to target the entire farming community. The negative correlation between age and use of conservation tillage and between years farming and use of conservation tillage suggests than younger farmers, and those who have been farming for fewer years, are more interested and willing to use conservation practices. This may be because younger farmers have grown up during a time of concern for the natural environment. Younger farmers may also be less set in their ways and therefore willing to try new practices.

Other personal characteristics should be studied in addition to those studied as part of this project. For example, researchers should investigate whether farmers experience empathy with downstream residents and the distance of concern farmers consider when making decisions. Farmers' need for control, and their perceived ability to create desired change should be researched to discover if correlations or causations exist with likelihood to use conservation tillage.

Project Support USDA
Project Website
Report Burbach_Personality.pdf
Current Status Published in Great Plains Research 2008 Vol. 18:1, 103-114
Topic Property Values
Project's Primary Contact Information
Name Shultz, Steve
Unit UNO Real Estate Research Center
Email sshultz@mail.unomaha.edu
Phone 402-554-2810
Web Page http://cba.unomaha.edu/dir/HomePageBio.cfm?id=347
Project Information
Title Ongoing UNO/UNL Research on the Determinants of Agricultural Land Values: How Irrigation Contributes to Land Values in Western and Central Nebraska
Other(s) Nick Schmitz, UNO Real Estate Research Center 
Description

Hedonic (mass appraisal) land valuation models were estimated in the Republican and Platte watersheds of Central and Western Nebraska. These models are based on assumption that the buyers and sellers of agricultural land are able to accurately assess the value of irrigation when negotiating sale contract prices, and that irrigation equipment can be distinguished from land and irrigation values. Alternative models were estimated using various combinations of explanatory variables (all measured at the parcel level of analysis). These include: soil productivity measures, topography precipitation, parcel size, cropping patterns, topography, aquifer thickness, well pumping capacity, distances to elevators and towns, and irrigation systems.

The location of all agricultural land sales statewide (2000-2007) and estimated irrigation values in the Platte and Republican Watersheds were identified. Preliminary mass appraisal model results were summarized in tables and the locations of retired irrigation parcels in the Republican Watershed (as part of a 2006 NE DNR and USDA Pilot Program) were identified. The value of irrigated cropland is on average $615/acre (this is the value of irrigated cropland only and does not include the value dryland corners within pivot systems). As well, there are numerous areas and site-specific parcels within the watershed with both lower and higher irrigation values. In fact, we have calculated irrigation values for all of the natural resource districts in the Republican watershed: they range from $488/acre to $948/acre. These estimates are still considered 'preliminary' and may be subject to revision. These irrigation values also do not account for premiums above and beyond marginal market values that farmers and landowners will likely require to willingly participate in future irrigation retirement programs.

More on this research in a journal of the Western Agricultural Economics Association

Project Support U.S. Department of Agriculture Water and Watershed Program
Project Website
Report
Current Status Complete (up to 2007)
Topic Water Quality
Project's Primary Contact Information
Name Gitelson, Anatoly
Unit Center for Advanced Land Management Information Technologies
Email agitelson2@unl.edu
Phone 402-472-8386
Web Page http://snr.unl.edu/aboutus/who/people/faculty-member.asp?pid=39
Project Information
Title Using Remote Sensing to Detect the Threat of Blue-Green Algae
Description

Remote sensing is a useful tool for providing regulatory officials with the data necessary to make decisions regarding recreational waters. In 2005, CALMIT scientists undertook a collaborative effort with the Nebraska Department of Environmental Quality aimed at developing a tool to identify lakes where blue-green algae populations are present. The overall purpose was to incorporate those affected lakes into a toxic-algae alert procedure to provide early warnings to the public about the potential danger. This project also served to promote coordination and information sharing about toxic-algae issues among local units of government, lake associations, lake owners, and the public.

Both in-situ (close-range) and remote techniques were employed to detect and quantify in real-time the algal phytoplankton pigment concentration and composition (i.e., chlorophyll-a and phycocyanin in the water column). Two criteria were used to identify lakes and reservoirs with high probability of toxic algae: 1) chlorophyll concentration above 50 mg/m3; and 2) existence of blue green algae (the phycocyanin absorption feature has been used to indicate remotely the presence of blue-green algae). These criteria were tested by analytical assessment of toxic algae and the tests were positive: when the sensor systems indicated high probability of toxins, they were found in water samples.

Project Support Nebraska Department of Environmental Quality
Project Website http://www.calmit.unl.edu/research.php
Report
Current Status Completed
Topic Water Quality
Project's Primary Contact Information
Name Riens, John
Unit Wisconsin Ecological Services Field Office, U.S. Fish & Wildlife Service
Email John_Riens@fws.gov
Phone 541-885-2503
Web Page http://www.fws.gov/
Project Information
Title Macroinvertebrate Response to Buffer Zone Quality in the Rainwater Basin Wetlands of Nebraska
Other(s) W. Wyatt Hoback, Biology UNK, hobackww@unk.edu; Matt Schwarz, U.S. Fish & Wildlife Service 
Description

The Rainwater Basin is one of the most endangered wetland ecosystems in North America. This ecosystem is critical to many species including migratory waterfowl. Land use and runnoff from agriculture and cattle confinement operations are likely to be reducing the basin's health and diversity, however little information exists concerning macroinvertebrates. Twenty-two locations were assessed for water quality parameters, vegetation composition, and macroinvertebrates identified to genus. Samples were collected biweekly starting in April through July for three years. Macroinvertebrate diversity was impacted in areas with little buffer although the effects were not pronounced. Institution of a more effective vegetative buffers strip may reverse this trend to improve ecosystem quality and provide for invertebrate resources for migratory birds.

Click here to see a poster about this research

Project Support n/a
Project Website
Report
Current Status Completed
Topic Water Quality
Project's Primary Contact Information
Name Shea, Patrick
Unit School of Natural Resources
Email pshea1@unl.edu
Phone 402-472-1533
Web Page http://snr.unl.edu/aboutus/who/people/faculty-member.asp?pid=109
Project Information
Title Model to Identify Watershed Vulnerability and High Impact Programs
Other(s) Maribeth Milner, Agronomy and Horticulture, mmilner1@unl.edu; Gary D. Lynne, Agricultural Economics, glynne1@unl.edu; Mark E. Burbach, Conservation and Survey Division, mburbach1@unl.edu; Mark Bernards, Agronomy and Horticulture, mbernards2@unl.edu. 
Description

To protect water quality we need to better forecast environmental risks and guide conservation management decisions. Watershed vulnerability is determined by physical setting (soil, topography, and climate) and land management practices. If the most vulnerable areas can be determined, fields within those areas can be targeted for conservation management and mitigation of contamination. A model using the Soil Survey Geographic (SSURGO) Database is being developed to identify vulnerable areas and determine the potential impact of management practices on agrichemical runoff and leaching within impaired watersheds in Nebraska, Kansas, Missouri, and Iowa. Saunders County, NE is the primary site for development of the model, which will be applied in the Blue River watershed (Jefferson and Gage Counties in NE and Washington and Marshall Counties in KS).

To implement effective conservation practices it is necessary to understand what motivates the behaviors of producers and land managers. A survey tool will be used to determine what motivates the behaviors of producers and land managers in choosing practices and technologies in vulnerable areas. As part of this survey tool, an upstream individual's capacity and willingness to empathize with downstream water users about the quality and quantity of the water in Tuttle Creek Lake will be measured (see Cornhusker Economics article.) A statistical model will predict responsiveness to change and decision typologies will be mapped. A behavioral assessment model will be applied to selected areas upstream of Tuttle Creek, KS to predict the probability that producers and land managers will adopt the technologies and practices associated with total maximum daily load (TMDL) recommendations, as well as the extent of adoption. The information gained in this project can be used to design policy, incentive structures, and educational programs leading to the adoption of conservation management practices that improve and protect water quality.

Project Support USDA-CSREES National Integrated Water Quality Program.
Project Website http://www.agecon.unl.edu/Cornhuskereconomics/2008/8-20-08.pdf
Report Empathy Conditioned Conservation 1 14 09.pdf
Current Status Continuous
Topic Water Quality
Project's Primary Contact Information
Name Tang, Zhenghong
Unit Architecture
Email ztang2@unl.edu
Phone 402-472-9281
Web Page http://architecture.unl.edu/people/bios/tang_zhenghong.shtml
Project Information
Title Assessment of Sedimentation and Water Quality Conditions in the Rainwater Basin's Playa Wetlands
Other(s) Mark Kuzila, School of Natural Resources, mkuzila1@unl.edu; Xu Li, Department of Civil Engineering, xuli@unl.edu; Amy Burgin, School of Natural Resources, aburgin2@unl.edu 
Description

The overall goal of this project is to prioritize watershed restoration/acquisition programs in the Rainwater Basin (RWB) by examining playa wetlands’ sedimentation and water quality conditions using the Revised Universal Soil Loss Equation 2 (RUSLE2) and the fly ash technology.

Three specific tasks are included in this project:

  1. Calculate and map the sedimentation rates and the age of deposition for all playa wetlands in RWB
  2. Consolidate existing water quality data of the RWB playa wetlands and evaluate the key factors influencing playa wetland water quality
  3. Assess the effects of sedimentation control practices and prioritize future watershed restoration/acquisition programs

The final products of this project include:

  1. An atlas of wetland sedimentation maps and a risk report highlighting the areas in watersheds with the highest sedimentation rates
  2. A geodatabase and an evaluation report on the water quality conditions of the playa wetlands in the RWB
  3. A written assessment report for sedimentation control practices and a watershed index to prioritize future conservation/acquisition programs
Project Support U.S. Environmental Protection Agency
Project Website http://www.unl.edu/playawetlands/
Report
Current Status Underway
Topic Watershed Project
Project's Primary Contact Information
Name Shea, Patrick J.
Unit School of Natural Resources
Email pshea1@unl.edu
Phone 402-472-1533
Web Page http://snr.unl.edu/aboutus/who/people/faculty-member.asp?pid=109
Project Information
Title Application of Landscape Vulnerability Models to Assess Off-Site Pesticide Movement in a Nebraska-Kansas Watershed
Other(s) Maribeth Milner, Agronomy and Horticulture, mmilner1@unl.edu; Mark Bernards, Agronomy and Horticulture, mbernards2@unl.edu; Phil Barnes, Biological and Agricultural Engineering, Kansas State University, lbarnes@ksu.edu 
Description

Some landscape positions are more likely than others to contribute to ground and surface water contamination from agricultural inputs and management practices. By identifying these areas at a regional scale, resources can be optimally targeted to address potential problems at the field scale. We developed SSURGO (Soil Survey Geographic)-based models to assess vulnerability to pesticide contamination of ground or surface waters across the landscape. Upon application of the models to a four-county (NE-KS) study area (Blue River Basin), between-county discontinuities emerged. Each county soil map is based on the particular expression of soil-forming factors as interpreted by local mapping teams, but these teams may or may not have input on the mapping of adjacent counties. Soil map units are typically blended across county boundaries, but these changes will not correct fundamental differences in the models used to create soil maps. The discontinuities in our study area may be due to an end moraine that cuts northwest to southeast (predominantly through the western counties), differences in mapping dates (1975-2003), and variations in data interpretation by agencies in Kansas and Nebraska. By incorporating slope and slope length data generated from relatively high resolution 10 m DEMs (digital elevation models), we increased sensitivity to topography at the SSURGO polygon level. Model output between the SSURGO-based and the DEM-based topographic data differed substantially for the eastern glaciated counties, but were relatively similar for the western counties. Assuming that the DEM is correct, this suggests a lack of consistency in defining the SSURGO representative slope and (or) slope lengths among counties. Although discontinuities occur between counties, model output can be used to identify the most vulnerable areas within each county. Model utility is demonstrated by comparing model output with surface water quality measurements in the watershed.

Maps resulting from our models show relative landscape vulnerability to pesticide leaching and runoff. This information can be used to prioritize and target areas within a watershed for conservation management practices and other actions that will reduce contamination of water resources and improve water quality. We applied the models to a four-county NE-KS study area (Big Blue Basin) and propose solutions to discontinuities between counties resulting from variations in data intepretation due to differences in mapping teams and dates. We use surface water quality measurements to show the utility of our models.

Project Support USDA-CSREES National Integrated Water Quality Program.
Project Website http://www.usawaterquality.org/conferences/2009/PDF/Wshed-poster/Shea09.pdf
Report
Current Status Continuing
Topic Wetlands
Project's Primary Contact Information
Name Tang, Zhenghong
Unit Architecture
Email ztang2@unl.edu
Phone 402-472-9281
Web Page http://architecture.unl.edu/people/bios/tang_zhenghong.shtml
Project Information
Title Developing LiDAR-Derived Wetland Maps To Assess Conservation Design Practices For Playa Wetlands In Rainwater Basin
Other(s) Ed Harvey, School of Natural Resources, feharvey1@unl.edu; Xu Li, Department of Civil Engineering 
Description The overall goal of this project is to provide wetland managers with topographically-correct 3-D wetland maps to prioritize wetland conservation efforts and assess wetland conservation design practices. This project addresses three specific tasks for the playa wetlands: 1) Establish accurate, topographically-correct, 3-D wetland maps to relate weather conditions and wetland functions; 2) Develop a measurable Restorable Wetland Index to prioritize playa wetland and drainages conservation; 3) Assess wetland conservation design practices for watershed-based wetland conservation. This research will use high-resolution Light Detections And Ranging (LiDAR) data to create next-generation wetland maps for playa wetlands. The research provides the missing link in conservation design as these data will provide accurate elevation measures to delineate watershed extent and determine the impact of individual hydrologic modifications. This project will be one of the first to integrate LiDAR data and a hydrologic modifications datasets to find the relations of current weather conditions and wetland functions. This project provides reliable, accurate wetland spatial parameters to prioritize playa wetland conservation and assess the effectiveness of existing wetland conservation design practices. The wetland conservation design tools and protocols will be examined in two pilot counties in Nebraska. The intellectual merit of the research is based on advancing knowledge linkage of wetland mapping technologies and wetland function modifications, and showing how to adapt wetland conservation designs. The outputs from this project provide practical protocols for state/regional/local wetland managers and thus ensure "no net loss" in quality and quantity of wetlands.
Project Support US EPA
Project Website
Report
Current Status Completed
Topic Wildlife
Project's Primary Contact Information
Name Pope, Kevin
Unit Nebraska Cooperative Fish and Wildlife Research Unit
Email kpope2@unl.edu
Phone 402-472-7028
Web Page http://snr.unl.edu/aboutus/who/people/faculty-member.asp?pid=759
Project Information
Title Population Assessment of Channel Catfish in Nebraska
Other(s) Lindsey Chizinski, Graduate Assistant 
Description

Channel catfish (Ictalurus punctatus) is an important sport fish, particularly in the Great Plains. In Nebraska, a majority of anglers target channel catfish, and fishing activities are a vital part of the state’s economy. Lentic water bodies provide the primary fishing opportunity for catfish anglers in Nebraska. Despite the popularity and economic importance of channel catfish, little is known of its population dynamics or habitat requirements, and existing studies often profile river populations.

Current standards for sampling channel catfish in lentic systems often yield inadequate catch to assess populations. The objective of this study was to utilize a recently developed sampling method, tandem-set hoop nets, to collect channel catfish in sufficient quantities to describe the effects of stocking and habitat variability on populations in lentic ecosystems. Three lentic ecosystems common to the Great Plains were considered: sand pits, flood-control reservoirs, and irrigation/power-generation reservoirs.

The influence of stocking on abundance and condition of channel catfish varied with ecosystem type. In sand pits, stocking negatively influenced fish condition, and only stocking on an annual basis positively influenced abundance. In flood-control reservoirs, stocking did not influence fish condition, but was associated with greater abundance. In irrigation/power-generation reservoirs, stocking did not influence fish condition or abundance. Additionally, there was evidence that mortality and growth rates varied with ecosystem type. In general, channel catfish from irrigation/power-generation reservoirs were predicted to experience slower growth and lower mortality, whereas channel catfish from sand pits were predicted to experience the fastest growth and highest mortality.

Catch rates of channel catfish were substantially less in this study compared to previous records of tandem-set hoop net surveys, but hoop nets were more efficient than the current standard gear, experimental gill nets, at capturing channel catfish. That is, 100 channel catfish could be captured with fewer sets of hoop nets than gill nets. However, catch rates and size structure of channel catfish in tandem-set hoop nets varied within the sampling season and between years. Furthermore, length-frequency distributions of channel catfish were dissimilar between hoop nets and gill nets.

Click here to read Lindsey Chizinski's Master's Thesis on Channel Catfish Population in Nebraska

Project Support Nebraska Game and Parks Commission
Project Website http://snr.unl.edu/necoopunit/research.main.html#channel_catfish
Report
Current Status Completed
Topic Wildlife
Project's Primary Contact Information
Name Pope, Kevin
Unit Nebraska Cooperative Fish and Wildlife Research Unit
Email kpope2@unl.edu
Phone 402-472-7028
Web Page http://snr.unl.edu/aboutus/who/people/faculty-member.asp?pid=759
Project Information
Title Population Assessments of Temperate Basses in Nebraska Reservoirs
Other(s) Christopher Chizinski, School of Natural Resources, cchizinski2@unl.edu 
Description

Branched Oak and Pawnee reservoirs are two waterbodies in eastern Nebraska that provided important local fisheries for nearly half of Nebraska’s population. Littoral species of fish, such as black crappie, bluegill and largemouth bass, dominated the angler catch early in the life of these reservoirs. However, sedimentation and erosion have substantially altered the habitat of these reservoirs, which resulted in shift from clear-water littoral habitat to turbid-water limnetic habitat. These habitat changes caused a shift in the sportfish community from one dominated by shallow-water species such as black crappie, bluegill and largemouth bass, to one dominated by open-water species such as walleye and white bass. In addition to habitat changes, introductions of the white perch into these reservoirs have caused additional changes in the fish communities and their associated dynamics. Since their introduction, white perch numbers have increased precipitously over the last 15 years resulting in populations of stunted white perch. Elimination of the stunted status for these white perch populations through increased stocking of predators has been unsuccessful to date.

This study will provide an in depth analysis of the white perch populations in these two Nebraska reservoirs. Specifically, we will estimate the biomass of each white perch population and quantify the spatiotemporal (daily and seasonally) distribution of white perch in both reservoirs.

Project Support Nebraska Game and Parks Commission
Project Website http://snr.unl.edu/necoopunit/research.main.html#temperatebasses
Report
Current Status Underway