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James Schnable, Assistant Professor of Agronomy and Horticulture, is sequencing crop DNA in corn to make it adapt to more specific climates. Photo used for 2018-2019 Annual Report on Research at Nebraska. July 2, 2019. Photo by Craig Chandler / University Communication.

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James Schnable, Assistant Professor of Agronomy and Horticulture, is sequencing crop DNA in corn to make it adapt to more specific climates. Photo used for 2018-2019 Annual Report on Research at Nebraska. July 2, 2019. Photo by Craig Chandler / University Communication.

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James Schnable, Assistant Professor of Agronomy and Horticulture, is sequencing crop DNA in corn to make it adapt to more specific climates. Photo used for 2018-2019 Annual Report on Research at Nebraska. July 2, 2019. Photo by Craig Chandler / University Communication.

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James Schnable, Assistant Professor of Agronomy and Horticulture, is sequencing crop DNA in corn to make it adapt to more specific climates. Photo used for 2018-2019 Annual Report on Research at Nebraska. July 2, 2019. Photo by Craig Chandler / University Communication.

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Omera Matoo is researching fruit flies. She and Kristi Montooth have found that mutant flies of a species can adopt different approaches to metabolism during early development but still wind up looking and functioning very similarly to non-mutants. June 10, 2019. Photo by Craig Chandler / University Communication.

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Omera Matoo is researching fruit flies. She and Kristi Montooth have found that mutant flies of a species can adopt different approaches to metabolism during early development but still wind up looking and functioning very similarly to non-mutants. June 10, 2019. Photo by Craig Chandler / University Communication.

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Pictured; Fruit fly sample. Kristi Montooth, left, and Omera Matoo examine fruit flies in the lab. They've found that mutant flies of a species can adopt different approaches to metabolism during early development but still wind up looking and functioning very similarly to non-mutants. June 10, 2019. Photo by Craig Chandler / University Communication.

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Pictured; Fruit fly sample. Kristi Montooth, left, and Omera Matoo examine fruit flies in the lab. They've found that mutant flies of a species can adopt different approaches to metabolism during early development but still wind up looking and functioning very similarly to non-mutants. June 10, 2019. Photo by Craig Chandler / University Communication.

190610 Flies 030

Kristi Montooth, left, and Omera Matoo examine fruit flies in the lab. They've found that mutant flies of a species can adopt different approaches to metabolism during early development but still wind up looking and functioning very similarly to non-mutants. June 10, 2019. Photo by Craig Chandler / University Communication.

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Nebraska's Matt Wiebe (second from right) and Annabel Olson (far right) examine viral cultures alongside colleagues Zhigang Wang (far left), Amber Rico (second from left) and Allie Linville. March 4, 2019. Photo by Craig Chandler / University Communication.

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Sophie Payne, doctoral student in biological sciences, has co-authored a study showing that single-celled organisms known as archaea can pass on traits even without changes in their DNA. This phenomenon, known as epigenetics, was found in a species that eats crystalline sulfur (pictured at front). November 20, 2018. Photo by Greg Nathan, University Communication.

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Sophie Payne, doctoral student in biological sciences, has co-authored a study showing that single-celled organisms known as archaea can pass on traits even without changes in their DNA. This phenomenon, known as epigenetics, was found in a species that eats crystalline sulfur (pictured at front). November 20, 2018. Photo by Greg Nathan, University Communication.

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Sophie Payne, doctoral student in biological sciences, has co-authored a study showing that single-celled organisms known as archaea can pass on traits even without changes in their DNA. This phenomenon, known as epigenetics, was found in a species that eats crystalline sulfur (pictured at front). November 20, 2018. Photo by Greg Nathan, University Communication.

181120 Payne 052

Sophie Payne, doctoral student in biological sciences, has co-authored a study showing that single-celled organisms known as archaea can pass on traits even without changes in their DNA. This phenomenon, known as epigenetics, was found in a species that eats crystalline sulfur (pictured at front). November 20, 2018. Photo by Greg Nathan, University Communication.

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Ordering Instructions

All photos are available to UNL departments at no charge. Email the titles of the photos to Craig Chandler or Monica Myers.

cchandler2@unl.edu
mmyers2@unl.edu

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