{"id":13153,"date":"2017-07-17T16:21:57","date_gmt":"2017-07-17T20:21:57","guid":{"rendered":"https:\/\/esa.org\/esablog\/?p=13153"},"modified":"2017-07-17T16:21:57","modified_gmt":"2017-07-17T20:21:57","slug":"daniel-winkler-awarded-forrest-shreve-student-research-funds-to-study-a-desert-invader","status":"publish","type":"post","link":"https:\/\/esa.org\/esablog\/2017\/07\/17\/daniel-winkler-awarded-forrest-shreve-student-research-funds-to-study-a-desert-invader\/","title":{"rendered":"Daniel Winkler awarded Forrest Shreve Student Research Funds to study a desert invader"},"content":{"rendered":"

Getting to the roots of Sahara mustard invasion in the American Southwest-<\/h3>\n

Awards from the Forrest Shreve Student Research Fund provide $1,000-2,000 to support ecological research by graduate or undergraduate student members of ESA in the hot deserts of North America (Sonora, Mohave, Chihuahua, and Vizcaino).<\/h4>\n
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Daniel Winkler<\/strong> collects plant tissue samples for genomic analyses to uncover the spread of the invasive Sahara mustard in Anza-Borrego Desert State Park, California in February 2015. Credit: Susan Gilliland<\/em>.<\/p><\/div>\n

In 2015, a rural community in southeastern California approached Daniel Winkler<\/a> and his doctoral advisor, Travis Huxman, for help with an invader that was hurting their local economy. An Old World annual plant called Sahara mustard (Brassica tournefortii<\/em>) was spreading rapidly through the deserts of the southwestern U.S., carpeting the local Anza-Borrego Desert in spring, and smothering the native wildflowers that draw tourists to the region. Loss of native plants put the animals that depend on them for food and shelter at risk. The mustard was disrupting the entire desert ecosystem.<\/p>\n

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Daniel Winkler takes a sample seeds from a mature Sahara mustard plant. A single plant of this self-fertilizing annual can produce 10,000 seeds in a growing season. Credit: Kenny Chapin.<\/em><\/p><\/div>\n

The Tubb Canyon Nature Conservancy asked Winkler to take on a project to learn what enabled Sahara mustard to adapt so successfully \u2014 and, hopefully, gain insight into how to stop it.<\/p>\n

Winkler, a Ph.D. student at the University of California, Irvine, received a 2017 award from the Ecological Society\u2019s Forrest Shreve Student Fund, to support the project. He\u00a0will report his current findings on August 11, at the Ecological Society of America\u2019s 2017 Annual Meeting in Portland, Oregon<\/a>.<\/p>\n

\u201cIn 2015 I went on the greatest American road trip \u2014 5000 miles of highway, dirt roads, and trails \u2014 to visit over 50 sites in California, Arizona, New Mexico, Texas, Utah, and Nevada, the current range of Sahara mustard in the U.S.,\u201d said Winkler. He collected 2,000 leaf samples and up to a million seeds.<\/p>\n

The project was a good fit for Winkler, who was already studying native flowers in the Sonoran. It also benefited from his years working at the U.S. Bureau of Land Management and the Fish and Wildlife Service prior to pursuing a doctoral degree in ecology. His collection road trip included stops at ten national parks and monuments. He collaborated with park managers, citizen scientist programs, and volunteer groups to obtain samples.<\/p>\n

\u201cIt\u2019s usually a challenge to get permits to work in these parks, but in this case I got immediate calls back. The land managers have no idea how to stop the spread of Sahara mustard. It grows fast, self-fertilizes, and each plant can produce up to 10,000 seeds. It\u2019s a real problem,\u201d said Winkler.<\/p>\n

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Greenhouse experiments with Sahara mustard samples from ten populations across the Southwest revealed adaptations to the temperature and precipitation patterns in the invaded range. Credit: Daniel Winkler<\/em>.<\/p><\/div>\n

Back in the lab, Winkler investigated the plant\u2019s adaptation to local conditions through multigenerational garden experiments with seeds from ten representative locations selected from his collecting road trip, spanning the Sahara mustard\u2019s range. He found that the timing of seed germination, leaf growth, and flowering had shifted to take advantage of temperature and precipitation patterns in the landscapes it invaded. Sahara mustard grows very fast in response to variable winter rains.<\/p>\n

Sahara mustard\u2019s native range is southern Europe, northern Africa, and most of the Middle East. It is believed to have been introduced into California\u2019s Coachella Valley in the 1920s, and began spreading notably in the Southwest in the \u201880s and \u201890s, with explosive growth only in the last 20 years or so. The relatively recent establishment lends hope that it can be eradicated, said Winkler. His next step is to collect samples in the native range to compare to plants in the U.S. to learn more about the original introduction of the plant in North America.<\/p>\n

Support from the Forrest Shreve Award will fund rapid \u201cnext generation\u201d DNA sequencing to uncover unique genetic signatures for each plant. By comparing the genetic signatures, he will learn how similar plants growing across the U.S. southwest are to each other, and to populations in Sahara mustard\u2019s native range. Identifying the source location, or locations, of the U.S. invasion, he said, could aid in finding biological control agents.<\/p>\n

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