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The Hancock Agricultural Research Station: "Integrating Research and Development for WI Agricultural Systems"
By Félix Navarro and Mary Lemere July, 2013
The Hancock Agricultural Research Station (HARS) is located in Waushara County in the part of
Wisconsin known as the “Central Sands”. Research at HARS began in 1916 by the College of Agricultural
and Life Sciences on land belonging to the Hancock Development Company. In those early years, the
intent of the research was to aid general livestock farmers in their attempt to make a living on the
droughty sands in Central WI. Six years later, the UW- Board of Regents purchased 95 acres from this
private company, and by 1934 they had acquired two more adjacent parcels for a total of 223 acres.
Research efforts for the next twenty years were directed towards dairy feeding, pasture utilization, soil
fertility management, and studies with coniferous and deciduous shelterbelt plantings for wind erosion
control. Irrigation possibilities came to the forefront in the late 1940s with aluminum pipe becoming
available and the discovery of an accessible underground water supply. Irrigation brought renewed hope
to the people of the area and redirected the college's research efforts. Studies began to reveal two-,
three-, and sometimes four-fold increases in crop productivity when irrigation was used. Seventy acres
were added to the station in 1962 to aid in irrigation research, provide low fertility land, and help offset
acreage lost by Hwy 51 relocation and 120 acres were added in 1971 to better serve the research and
outreach functions of HARS.
Hancock Agricultural Research Station headquarters
This station is one of twelve experimental stations administered by the University of Wisconsin-Madison
College of Agricultural and Life Sciences (UW-CALS). The station’s sandy soils and climate are very
suitable to conduct research applicable to the agriculture in central Wisconsin and other similar agro
ecological regions. Research at the Hancock station focuses on irrigated vegetable and field crops with
an emphasis on potatoes, snap beans, cucumbers, field corn, sweet corn and carrots. One of the core
missions of HARS is to support the research and outreach activities of professors, academic staff and
students from different academic departments from UW-CALS. The University of Wisconsin, with the
support of stakeholders, has developed field and laboratory infrastructure necessary to conduct
research at HARS. Of the 412 acres of land, presently more than 300 are tillable. The station has
customized machinery, post-harvest handling and grading sheds, machine and repair shops, office space,
and public events facilities.
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A highlight of the station that attracts a large number of visitors of the general public is the ‘A.R. Albert
& Villetta Hawley-Albert Horticultural Garden’. This horticultural garden located at the east side of the
fields, close to US Interstate 39 is a visible face and main image that thousands of travelers have of the
Hancock station. Presently the garden is maintained with active support and collaboration with master
gardener groups from the region.
The most recent and prominent addition to the station is the Hancock Storage Research Facility (SRF).
The Wisconsin Potato & Vegetable Storage Research Facility was conceived, designed and built by the
potato and vegetable growers of Wisconsin. The potato growers of Wisconsin raised $3.2 million to
build the Wisconsin Potato & Vegetable Storage Research Facility in 2006. The facility contains nine bulk
storage bins and nine lockers for pallet research. Each bulk bin holds 2,000 cwt (200,000 pounds) of
bulk-piled potatoes mimicking commercial storage conditions. Each locker and bin has a separate air
handling and humidity unit to prevent cross-contamination between research projects.
University of Wisconsin Potato and Vegetable Storage Research Facility
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The Mission
The Hancock Agricultural Research Station supports research projects, student training and outreach
activities of UW-CALS researchers, notably from the Departments of Horticulture, Plant Pathology,
Entomology, Soil Science, Agronomy and Forest and Wildlife Ecology. UW graduates and researchers like
ourselves we have firsthand knowledge of HARS’ effective role as a training facility for UW-Madison
undergraduate, graduate students, and summer interns. HARS is one of the greatest field laboratories in
the State of Wisconsin where technology is tested before it impacts growers’ fields, industry and the
environment. This facility is expected to play a central role integrating research and development for WI
agricultural systems and beyond.
A measure of Success
Success at the Hancock Ag Research Station can be defined and measured through the quantity and
quality of the research conducted here. A quick survey of recent research contributions to scientific
journals and reports may be a good indicator of the success of research conducted at this station.
Besides contributing to the scientific literature, researchers communicate project results in activities
conducted at the station in events such as separate annual field days on potato, processing crops and
ornamental plants. Similarly research activities are communicated in meetings with stakeholders,
growers and industry committees, other organizations and individual growers. A large number of
undergraduate and graduate students from different departments in CALS receive most of their hands
on experience at HARS. Faculty, staff and students doing research at HARS are part of the body of
scientists that keeps J.C. Walker’s spirit alive ‘with one foot in the furrow’.
Research
University of Wisconsin researchers have conducted at HARS a number of relevant projects that have
contributed significantly to agriculture in WI. These projects include improved soil and crop
management practices, post-harvest and storage management, better disease and pest monitoring and
control as well as new variety options in several crops. Present research projects are pursued to provide
appropriate management tools to growers and industry as well as to reduce impact of agriculture on the
environment. A sample of current projects carried out at the Hancock Ag Research Station is given
below.
Recent Research Projects Conducted at the Hancock Ag Research Station and Contributed to Scientific
Reports
Soil, Water and Nutrient Management
Nutrient Management Studies at HARS: A team of researchers from the UW-Soil Science Department
including Matt Ruark, Carrie Laboski and Keith Kelling, and A.J. Bussan and Jiwan Palta (Horticulture)
have conducted research on:
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Slow-release nitrogen, urease inhibitor, and nitrification inhibitor fertilizer use in potato production systems
Nitrogen leaching losses in potato production systems on sandy soils Nitrogen use efficiency of improved sweet corn hybrids Interaction between sweet corn hybrids and potato varieties to planting density, and nitrogen
fertilizer application rate Predicting nitrogen release and the utility of petiole testing on potato Response of potato and snap beans variety to nitrogen and phosphorus Potato tuber quality enhancement in response to Calcium application Preservation and maintenance of low soil fertility area for future research
In addition to managing their research projects Matt Ruark and AJ Bussan provide guidance on nitrogen management to HARS.
Bill Bland and Birl Lowery from the Soils Science Department and AJ Bussan (Horticulture) have
addressed research needs on:
Water dynamics in drip and overhead sprinkler irrigated potato hills and development of dry
zones.
Water relations in the irrigated sand plain of Wisconsin
Effect of deficit irrigation on potato, snap beans and sweet corn
Variable rates of irrigation in potato, sweet corn and snap beans
Role of agricultural irrigation in ground water level fluctuations in central Wisconsin
Surfactant impact on nitrogen utilization and leaching in potatoes
In regards to irrigation management, HARS is implementing the Wisconsin Irrigation Scheduling
Program (WISP 2012) and soil moisture sensors as a checkbook method to monitoring root zone water
content in potato and other crops. This program was developed by John Panuska and Rick Wayne from
the Biological Systems Engineering and John Norman from the Soil Science Department. They
incorporated features from existing irrigation schedulers suggested by former Hancock ARS
Superintendent David Curwen and L.R. Massey in 1994.
Research on rates of irrigation with drip irrigation Linear irrigation system
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Potato and Vegetable Agronomic Management and Extension
AJ Bussan’s research objectives include:
Precision management of potato and vegetables
Influence of management and climate on growth and development of potato and vegetables.
Improvement of sustainability and economic value of vegetable production systems.
Refine production practices including seeding rate.
Bulking rate and increasing earliness in vegetable production
Potato yield and quality response to subsoil tillage and compaction.
Optimizing management of new potato varieties.
Effect of vine-kill application on long term storage of potatoes.
Relevant information on the management of specific potato varieties is produced every year. In addition
to facilitating research conducted at HARS, the station facilitates research conducted in muck soils of
Endeavor WI.
Jed Colquhoun is responsible for weed science research activities in vegetable crops at HARS. His
program focuses on the development of integrated strategies for weed management that improve the
economic and environmental sustainability of crop production. Specific interests include crop tolerance
or suppression of weed interference, weed resistance management, and parasitic weed ecology and
management. Dan Heider conducts research on herbicide efficacy. Among recent and ongoing research
activities are:
Study of herbicide drift on potatoes
Potato herbicide efficacy evaluation
Potato herbicide evaluation for extended weed
control
Sweet potato herbicide efficacy evaluation
IR-4 Program: Efficacy and phytotoxicity of new
herbicides.
Herbicides evaluations for Hairy Nightshade
control
Vines kill evaluations
Herbicide carryover Efficacy and phytotoxicity of herbicide research plots
Potato and Vegetable Pest and Diseases Management
Researchers, including Amanda Gevens (UW-Plant Pathology), Russ Groves (Entomology), Ann
McGuidwin and Amy Charkowski (Plant Pathology) lead projects on pest and disease management. Their
objectives are to make accurate prediction of pest and disease occurrence and develop effective and
efficient control methods.
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Amanda Gevens projects at HARS include:
Evaluation of foliar fungicide programs on potatoes
Disease forecasting and management (carrots and cucumber)
Use of vine removal and cover crops as biofumigants to manage Verticillium wilt on potato
Fungicide efficacy to control potato pink rot
Evaluation of pink rot on potato
Evaluation of carrot foliar diseases
Impact of dairy manure on potato production
Amanda Gevens inoculating potatoes with pathogens Stephen Jordan evaluating potatoes
Russ Groves’ projects at HARS include
New insecticide technology for Colorado potato beetle and potato leafhopper management
Colorado potato beetle overwintering emergence patterns and neonicotinoids resistance
Carrot insect pest management with foliar and systemic insecticides
PVY strains evaluation on potato varieties and epidemiology with Amy Charkowski
Russ Groves evaluating his PVY strains and Colorado Potato Beetle experiments at HARS
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Ann MacGuidwin is the only plant nematologist at the UW-Plant Pathology Department. Two of her
primary research interests are the role of nematodes in the early dying disease of potato and the
overwinter survival strategies of nematodes. She has demonstrated in field trials that the nematode
Pratylenchus penetrans and Verticillium dahliae interact synergistically to cause potato early dying and is
now studying mechanisms responsible for the interaction. The emphasis of Ann’s program on the
overwinter survival of nematodes is to understand the ecological and physiological parameters which
enable nematodes in Wisconsin to survive freezing. The goal of this collaborative work is to develop
sustainable management strategies for nematode pests of potato, soybean, corn, and other crops
important to the north central region of the U.S
MacGuidwins’ projects at HARS include:
Nematode response to fumigation alternatives in corn, soybeans and potato
Interaction of Verticillim dahliae and Pratylenchus penetrans with greenmanure and solarization
influence on potato yield
Nematode suppression in soybean
Amy Charkowski is responsible for the Wisconsin Certified Seed potato agency. In addition she conducts
research in potato virus Y and soft rot. Her recent work focuses on:
Long-term storability of Potato Virus Y (PVY)infected tubers (with Russ Groves)
PVY management in drip and overhead irrigated potato
PVY management-National Minituber Inoculation Trial
Validation of sources of resistance to PVY of different origin. In collaboration with the potato
breeding program she is using marker assisted selection for the introgression of PVY resistance
to breeding clones
Amy Charkowski research group
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Environmental Impact of Agriculture
Environmental fate of neocotinoids: a potato case study (Groves).
Slow release fertilizer effect on groundwater nitrogen concentration in sandy soils under potato
production (Ruark/Lowery).
Potato Germplasm Enhancement
Shelley Jansky is responsible for the enhancement of potato germplasm, including the use of genes in
wild or non-cultivated potato species and introgression of traits to Solanum tuberosum. One of her
strategies is the study of reproductive biology focusing on crossing barriers and mechanisms to
overcome these barriers. One of her strategy is ploidy manipulation using haploids and 2n gametes.
Projects developed at HARS include:
Inheritance of resistance to Verticillium dahliae in diploid interspecific potato hybrids.
Identification and introgression of PVY resistance from Solanum chacoense and development of
molecular marker for this resistance
Identification and introgression of common scab resistance and chip quality from Solanum
chacoense and development of molecular marker for this resistance
Release of seven clones in 2011 (M1-M5) for improving chip quality, M7 using S.
infundibuliforme for improving russet processing, and M8 using S. berthaultii as a new source of
genetic diversity in red potatoes. US breeding programs are actively using these clones.
Important collaborative work searching for resistance to early blight, late blight and PVY in
collaboration with Dennis Halterman.
Jansky also evaluate clones from different US breeding programs in a National Verticillium Wilt
experiment at HARS.
Shelley Jansky, Paul Bethke and Dennis Halterman research groups
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Potato Breeding and Variety Evaluation
The goal of the UW Potato Breeding Program in the last few years has been to develop genetically
superior varieties that satisfy or exceed the standard for yield and grade in the fresh and processing
markets. The main objectives of the UW-Potato Breeding Program are as follow:
Development of processing and dual purpose processing and fresh market russet varieties
Development of fresh market russet varieties
Development of long storage chippers as potential ‘Snowden’ replacements
Development of early chippers as potential ‘Atlantic’ replacements
Development of fresh market red skin and specialty varieties
HARS has been of critical importance to the potato breeding program since it provides the opportunity
making selections in a production region where developed varieties are expected to perform well.
Projects carried out at HARS include:
Early years clonal selection in Year 3 for fresh market and processing traits
Evaluation of advanced clones in (Year 4-5)
Evaluation of elite clones (SpudPro trial)
National Chip and French Fry Processing Trial
North Central Regional Trial
Evaluation of breeding clones in permanent disease trials for common scab and Verticillium wilt
evaluation
Use of marker assisted selection for tuber internal and external defects
Use of marker assisted selection for PVY resistance (in collaboration with Amy Charkowski)
Left- Jiwan Palta explaining research conducted by the potato breeding program during a field
day
Right- Growers and industry evaluating potato varieties in the SpudPro trial conducted by Bryan
Bowen and Mary Lemere
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A number of varieties have been released and protected by PVP in the last 10 years as a result of
selection at HARS, the Rhinelander Ag Research Station and data from collaborators. These include:
MegaChip, Freedom Russet, White Pearl and Villetta Rose. Some of these recent releases, particularly
MegaChip have been readily adopted. Figure below shows the impact of newly released clones in the
last eight years, measured as certified acres grown.
Certified seed acreage (2005-12) of new Wisconsin clones
Another wave of varieties has been named and is in the process of being protected and released; these
include Tundra, Nicolet, Accumulator and Lelah.
Data generated at HARS has been essential for selection and characterization of these varieties. The
breeding program has a number of elite clones with high potential as varieties. These have been
promoted by the SpudPro committee for virus removal and clean seed production for additional
research including on-farm testing. These include: W5955-1 and W6609-3 (chippers with common scab
tolerant), W5015-12 and W5015-5 (chippers with some tolerance to late blight), reds: W6002-1R,
W8405-1R and W8893-1R, W6703-1Y (yellow), processing russets: W6234-4rus and W8152-1rus (low
acrylamide) and fresh market russets: W9133-1, W8516-1rus.
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2005 2006 2007 2008 2009 2010 2011 2012
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Potato Storage Management and Evaluation of Cold Induced Sweetening on New Potato Varieties
(Paul Bethke, AJ Bussan, Mary LeMere, Amanda Gevens, Russ Groves)
Bethke: Focus is on the post-harvest physiology of potato tubers. Areas of emphasis include tuber
water relations, carbohydrate metabolism and physiological age. Long-term goals are to gain a more
detailed understanding of potato physiology, and to identify specific molecular and cellular events that
predict or influence the marketability of stored potatoes. Specific projects conducted at HARS include:
Vine-kill treatment and harvest date relation with persistent effects on tuber physiology.
Effects of infection on stem-end chip defect development in potatoes
Causes of stem end chip defect in chipping potatoes
Potato tuber dormancy
Impact of potato maturation in storage
Detecting storage pathogens by monitoring volatiles in the storage atmosphere
Tuber skin set in Wisconsin potatoes
A.J. Bussan and Dale Nelson observe bin research in research facility Mary Lemere conducts sugar extraction of potatoes
Bussan and LeMere: Characterize sugar profile and predict processing quality of new potato varieties
and elite breeding lines as well as provide service to growers to monitor sugars and processing quality
during harvest and post-harvest
Impact and pressure bruise in potatoes
USPB/Snack Food Association Trial: Elite chip clones from US breeding programs
Potato Fresh Market Trial: russet, reds, yellow flesh and specialties
Semi-commercial bin evaluation of elite clones with most potential for the fresh and processing
markets.
Bulk bin storage evaluations to determine best management practices for Umatilla, Innovator,
AO95409-1, Lelah, Lamoka, Nicolet, W5015-12, Tundra and Waneta
LeMere:
Monitoring sugar and processing characteristics for growers (Fee for service)
SpudPro Trial: Elite clones from WI breeding program; fresh market and processing.
Wisconsin Variety Trial: Advanced and elite clones; fresh market and processing
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Gevens:
Evaluation of stored potato diseases (pink rot , silver scurf, black scurf and powdery scab)
Groves:
Long-term storability of Potato virus Y infected tubers
Snap Bean Breeding, Variety Trials and & Snap Bean Cultivar Evaluation (James Nienhuis, AJ Bussan,
Amanda Gevens)
Nienhuis focuses his research on integration of plant breeding with developing technologies in
molecular biology. In the last few years his research group executed projects on the following topics:
Developed varieties with resistance to root rot including: ‘Accelerate’ or UW3, and three
additional protected lines in collaboration with Felix Navarro and Michell Sass.
Marker-Facilitated Selection for a Major QTL Associated with Aphanomyces and Pythium Root
Rot Resistance in Snap Bean
Identification and confirmation of quantitative trait loci for resistance to root rot and bacterial
brown spot in snap beans
Nitrogen use efficiency on snap beans
Breeding for virus resistance on snap beans
James Nienhuis research plot comparison of Wisconsin root rot resistant lines and root rot susceptible bean varieties
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Gevens:
Evaluation of fungicides to control white mold in snap beans
Bussan:
Commercial variety agronomic performance of snap beans and sweet corn
Snap bean irrigation and nitrogen use
Nitrogen mineralization and uptake in snap bean and sweet corn
Sweet corn variety trial conducted in collaboration with Midwest Food Processors industry
Cucumber & Melon Breeding
Yiqun Weng is responsible for cucurbit breeding. He replaced Jack Staub several years ago. The focus of
his program is on germplasm characterization and enhancement; genetics and genomics of important
traits in cucumber; development of molecular markers and applications in breeding practice; genetic
diversity, phylogenetics and comparative genomics in Cucumis species; development of cucumber
genomic resources. Weng projects at HARS include:
Fine genetic mapping of cp: a recessive gene for compact (dwarf) plant architecture in cucumber,
Cucumis sativus L
Spacing and genotype effect on fruit sugar concentration, yield, and fruit size of muskmelon
Inheritance of the Quantity of ß-carotene and Fruit Maturity of Melon (Cucumis melo L.)
Nearly isogenic cucumber genotypes differing in leaf size and plant habit exhibit differential
response to water stress
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Yiqun Weng and his research group discuss research strategies in cucumber breeding
Organic Production (AJ Bussan, Amy Charkowski, Jim Nienhuis, Amanda Gevens, Jed Colquhoun)
HARS has a field of 15 acres dedicated to organic production under corresponding certified production
practices. This allows researchers to evaluate the feasibility of organic practices on heirloon and new
crop varieties. Research projects executed include:
The feasibility of organic nutrient management in large-scale sweet corn production for
processing
Feasibility of organic weed management in sweet corn and snap bean for processing
Effect of organic amendments on soil borne and foliar diseases in field-grown snap bean and
cucumber
Root rot resistant varieties adapted to organic production
Food Safety (Jeff Ingham)
Escherichia coli contamination of vegetables grown in soils fertilized with non-composted bovine
manure
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Outreach
Outreach activities conducted at HARS provides the opportunity for interaction between growers and
industry with UW faculty, academic staff, students and HARS personnel. This interaction is essential for
the communication of advances on research to stakeholders. At the same time growers and industry
provide guidance to help align research priorities with the needs of WI agriculture. Outreach activities
conducted at HARS include.
Meetings with stakeholders organized as grower and industry association committees
Meeting with individual growers visiting the station
Collection of samples from individual growers to be sent to pathologist or entomologists on
campus
Annual WPVGA sponsored Potato Field Day
Annual Potato Variety Harvest Expo
Midwest Food Processors field day (snap bean and sweet corn)
A.R. Albert & Villetta Hawley-Albert Horticultural Garden Twilight tour
Potato growers and industry personnel evaluate new elite potato A living proof that it is never too early
breeding lines at the Annual Potato Variety Harvest Expo to observe research advances!
Final Remarks
The mission of the Hancock Agricultural Research Station integrating research and development for WI Agricultural Systems is a service that the College of Agricultural and Life Sciences has understood from the early years of the station. The College realizes the importance of research that addresses the needs of growers and industry. Historically, researchers such as J.C. Walker, a member of CALS from 1919 until his retirement in 1964 provided the proof of the value of research for agriculture. Walker developed disease-resistant varieties of cabbage, onions, beans, peas, beets, potatoes and cucumbers. Several times during the first half of the XX century, Walker's research prevented the collapse of key segments of the state's multimillion-dollar vegetable processing industry. His research also made vegetable production possible in many areas of the world where diseases previously had decimated crops. Today, the College, growers and industry have developed infrastructure to make possible great advances in research, student training and outreach. The integration of these elements are key to agricultural development in WI and beyond, in agreement with the Wisconsin Idea.