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Insight into Northern Minnesota's Domesticated Apple

Briana Gross, assistant professor of biology and her student researcher Marshall Wedger have documented the genetic fingerprint of 311 apple trees from the Duluth area.

An apple tree will grow from a seed but a successful result is extremely rare. Too many things can make the apple undesirable, including: small fruit size, poor fruit quality, bad flavor, rapid browning when cut, short storage-life, a flowering time that is too early or too late, or a poor fit for the local climate. Fruit trees cannot be reproduced "true" to the original cultivar from seed. They can only be propagated from the “mother tree” by grafting.

Dan Bussey, orchard manager for Seed Savers Exchange in Decorah, Iowa, has identified more than 20,000 named varieties of apples that existed in the United States from the 1620s to the year 2000. Now, over 2,500 varieties of apples have been genetically identified in the United States and more than 7,500 have been identified in the world.

The apple tree is one of the oldest cultivated fruit trees, along with fig, olive, and grape. Apple was domesticated between 10,000 and 4,000 years ago, and there is evidence of people eating wild apples all the way back in the Neolithic Era. The last surviving wild apple forests in the world are found in the Tien Shan mountain range in southern Kazakhstan and western China. Research has shown that these Kazakh apples have the closest genetic profile to the domestic apples. Thousands of years ago these apples spread with travelers along trade routes such as the Silk Road.

Marshall Wedger, an undergraduate research student studying biology, and his advisor, Briana L. Gross, assistant professor of biology, know that supporting local agriculture helps farmers and strengthens the local economy. In an effort to help restore apple production in Duluth and along the North Shore of Lake Superior, they launched a project to genetically identify area apples.

The project was developed in collaboration with Dr. Cindy Hale, a researcher in local agriculture who also operates her own integrated fruit, poultry, and hog farm. They enlisted community members and orchard owners as advisors. Commercial orchards produce thousands of pounds of the domesticated apple (Malus x domestica) each year. It is a major perennial crop, yet little is known about the history and genetic make-up of these trees. Starting in the summer of 2013, Wedger genotyped, which means documented the genetic fingerprint, of 311 apple trees from community residents, orchards, and trees on public land in the Duluth area. The results were surprising.

Members of the Gross lab collected leaves donated by interested community members at the Duluth and UMD farmers market throughout the summer of 2013. Most people who brought in leaves for identification had moved into a house with an existing tree on the property, but did not know the cultivar type. Lab members also collected leaves from abandoned trees on public land. Little was known about the history and genetic makeup of these trees, but Gross and Wedger knew identifying the trees could be exceptionally useful for renewing local production.

Back in the lab, Wedger took a leaf from each tree and began testing. "I did the CSI thing," he said. Wedger took small pieces of each leaf and put them through a genetic testing sequence, similar to the DNA testing seen on the popular television show, CSI. "Specifically, I looked at SSR data from nine loci across the genome of Malus x domestica for each apple I found," said Wedger. He then compared the results to the Plant Germplasm System apple collection in Geneva, NY. The facility is maintained by the USDA-ARS National Plant Germplasm System-Plant Genetic Resources Unit (PGRU), and it has over 2500 living apple varieties maintained as trees in the field.

Wedger and Gross identified 71 trees as matches to 17 named cultivars, and 45 more apples encompassing 11 unknown genotypes. They found a significant overabundance of the ‘Haralson’ cultivar, representing 13% of the collected samples. (See list below). The 45 apples of unknown genotypes fell into groups and one group was represented by 11 trees in Duluth! Every person that participated in the study was provided the results of the study. Wedger and Gross also wanted to see if Duluth area cultivars originated from the UMD trial orchard, but no evidence was found to support that hypothesis.

When Wedger and Gross identified 42 of the unknown trees as the Haralson cultivar, they knew it was significant. The Haralson has a long history in Minnesota. The Minnesota Horticulture Research Center introduced the Haralson apple in 1922. Named after Charles Haralson, superintendent of the University of Minnesota Fruit Breeding Farm, Haralson apples are striped red with a greenish-yellow undercolor. Tart, crisp and juicy, they popular for eating, cooking, and in pies. Most significant is their ability to thrive in cold climates, hence their popularity in the Duluth area.

"Obviously, the Haralson is tried and true," said Gross. "It should provide the genetic basis for new varieties that will thrive in Northeastern Minnesota."

The question that remains is how does Northeastern Minnesota compare with the rest of the state. Gross wants to take the study further. "We'd like to look at trees from historical sites around the state," she said. The difference between an apple tree that grows in your back yard and one that can produce apples for large-scale production is huge. "There's a lot to learn," Gross said. "Simply identifying what is well adapted to this climate will help hundreds of farmers. We have the potential to promote local apple cultivation and that would be positive for Minnesota."


Haralson, 42, United States, 1913
Borowitsky, 6, Russia, 1700
State Fair, 3, United States, 1949
Goodland, 3, Canada, 1925
Fireside, 3, United States, 1917
Coombs wealthy, 2, United States, 1942
Anoka, 2, United States, 1918
San Juan, 1, Spain, 1947
Honeygold, 1, United States, 1935
Charlamoff, 1, Former Soviet Union, 1700
Chieftain, 1, United States, 1717
Redwell, 1, United States, 1911
Redfree, 1, United States, Unknown
Dolgo, 1, Former Soviet Union, Unknown
Ermak, 1, Former Soviet Union, Unknown
Mantet, 1, Canada, 1928
Westland, 1, Canada, 1883

In addition, 45 more apples encompassing 11 unknown genotypes were found. One group in the unidentified apple section was made up of 11 different trees in Duluth!

Of the apple varieties identified in the Duluth area, only five (Haralson, Honeygold, State Fair, Fireside, and Mantet) are listed on the University of Minnesota Extension list of 22 apples that grow well in Minnesota.

By Cheryl Reitan, June 2014.
UMD News Articles | News Releases
Cheryl Reitan, creitan@d.umn.edu


Searching for history in St. Louis River mud

July 2, 2014


Duluth, MN (NNCNOW.com) --- The St. Louis River has an industrial history that's still haunting the waterway.
Now research is being done to figure out what was normal on the river before extreme pollution occurred.
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"This river before the... especially back in the 60's and 70's looked terrible, there was oil, there was scum, people saw foam on the river" said Diane Desotelle of the Minnesota Pollution Control Agency. It's a situation that the St. Louis River has been recovering from across generations. Looking at the water today, it's not as easy to see the destruction that was caused, but if you look under the water...

Senior Research Assistant at NRRI, Euan Reavie and his team have been pulling history from the bottom of the St. Louis River in the form of sediments. "A big focus of the work that we do is actually using algae. Algae species in particular which can tell us about environmental condition"
said Senior Research Assistant at NRRI, Euan Reavie. Algae species under the name of diatoms have left fossils that settle into the sediment. "We find hundreds and hundreds of diatoms for each of these slides and each of them means something a little bit different for the core and will hopefully tell us something about the water quality" said Research Assistant, Elizabeth Alexson.

"These diatoms leave tracers of the conditions as they evolved over time and what we did" said Research Fellow, Lisa Allinger. What we did was industrialize much of the area around the waterway. The sediment will show researchers up to 300 years of data going back well before European settlers came to the Northland. The river has been on the rebound since water treatment facilities and other environmental practices have been put in place, but researchers hope the sediment will reveal the baseline to which they hope the river will rebound.

"We don't have that nail in the coffin that tells us that indeed we have rehabilitated this ecosystem. It is much better than it than it used to be and we have dealt with these beneficial use impairments" said Reavie. The river is currently listed as an area of concern by the Minnesota Pollution Control Agency. The data found will help shape policy around the river and ultimately answer the big question... "Have we shown significant enough rehabilitation of the ecosystem that we can delist it as an area of concern?" said Reavie. That answer will come in the future after scientists fully understand the past. Researchers expect their analysis of data will be complete in about a year and a half. From there, the MPCA and EPA will use the data to make policy decisions about the river.

Bryce Henry



Upcoming Boulder Lake Events

Hope to see you in our 18,000 acre classroom at one of the following events.

More info available at www.boulderlake.org


**Talking with Landowners about Intergenerational Land Transfer - Webinar - Jul 15


**MN Master Naturalist Volunteer Training - July 28-Aug 1


**MN Master Naturalist Volunteer Training- Aug 18-22


**Sasquatch Scramble Obstacle 5K Run - Sept 6


More info and registration details at www.boulderlake.org

Please email any questions to jdgeissl@d.umn.edu or call 218-721-3731.





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