News by Subject Agriculture

News Release 2-Jul-2020

Climate change threat to tropical plants

Half of the world's tropical plant species may struggle to germinate by 2070 because of global warming, a new UNSW study predicts.

Journal: Global Ecology and Biogeography
Funder: Australian Research Council Research Foundation

News Release 2-Jul-2020

Putting zinc on bread wheat leaves

American Society of Agronomy

Applying zinc to the leaves of bread wheat can increase wheat grain zinc concentrations and improve its nutritional content.

Journal: Agronomy Journal
Funder: Montana Wheat and Barley Committee

News Release 1-Jul-2020

To listen is to survive: Unravelling how plants process information

Helmholtz Zentrum München - German Research Center for Environmental Health

Researchers at Helmholtz Zentrum München and Ludwig-Maximilians-University (LMU) mapped the signaling network in plants and discovered novel insights about how plants process information about their environment. This gives new potential to strategies to protect crops and help them thrive in the time of increasing droughts.

Journal: Nature

News Release 1-Jul-2020

GPS isn't just for road trips anymore

American Society of Agronomy

Precision agriculture technologies can improve efficiency on smaller farms

Journal: Agricultural and Environmental Letters
Funder: Foundation for Food and Agriculture (agreement: 58-6022-9-002)

News Release 30-Jun-2020

As wildfires flare up across West, research highlights risk of ecological change

Colorado State University

Following high-severity fire, scientists have found forest recovery may increasingly be compromised by lack of tree seed sources, warmer and drier post-fire climate and more frequent reburning.

Journal: BioScience

News Release 30-Jun-2020

New winter squash decline research paves the way for understanding the disease

American Phytopathological Society

Winter squash is an important crop grown in the Willamette Valley, and the most important processing cultivar, Golden Delicious, has been grown in Oregon since the 1970s. Over the last two decades, however, growers have noticed yield declines throughout the valley. Agriculture specialists have identified an association between yield decline and disease symptoms such as stunting, vascular discoloration, late-season vine collapse, and root and crown rot, all symptoms of soilborne disease.

Journal: Phytobiomes Journal
Funder: Western SARE

News Release 30-Jun-2020

Breaking the silence: scientists investigate epigenetic impact across whole genome

Okinawa Institute of Science and Technology (OIST) Graduate University

Researchers from the Okinawa Institute of Science and Technology Graduate University (OIST) have uncovered a clue to the mystery of how epigenetic regulation impacts the entire plant genome, by looking at how plant cells suppress transcription - the first stage of how genes manufacture their products. Their findings, recently published in Nature Communications, pinpoint previously unknown sections of DNA that are silenced by epigenetic regulation, many of which originate within transposons.

Journal: Nature Communications
Funder: Japan Society for the Promotion of Science KAKENHI

News Release 30-Jun-2020

Sneaky salmonella finds a backdoor into plants

University of Delaware

Researchers have discovered that bacteria such as salmonella, E.coli and listeria have a backdoor to take advantage of humans' reliance on leafy greens for a healthy diet. They found that wild strains of salmonella are delivering foodborne illnesses by circumventing a plant's immune defense system, getting into the leaves of lettuce by opening up the plant's tiny breathing pores.

Journal: Frontiers in Microbiology

News Release 30-Jun-2020

Plant tissue engineering improves drought and salinity tolerance

University of Nevada, Reno

After several years of experimentation, scientists have engineered thale cress, or Arabidopsis thaliana, to behave like a succulent, improving water-use efficiency, salinity tolerance and reducing the effects of drought. The tissue succulence engineering method devised for this small flowering plant can be used in other plants to improve drought and salinity tolerance with the goal of moving this approach into food and bioenergy crops.

Journal: Plant Journal
Funder: Department of Energy, Office of Science, Genomic Science Program

News Release 30-Jun-2020

Scientists develop novel predictable multi-nucleotide deletion systems in plants

Chinese Academy of Sciences Headquarters

Based on the cytidine deamination and base excision repair (BER) mechanism, the researchers led by Prof. GAO Caixia from the Institute of Genetics and Developmental Biology of the Chinese Academy of Sciences developed a series of APOBEC-Cas9 fusion-induced deletion systems (AFIDs) that combine Cas9 with human APOBEC3A (A3A), uracil DNA-glucosidase (UDG) and AP lyase, and successfully induced novel precise, predictable multi-nucleotide deletions in rice and wheat genomes.

Journal: Nature Biotechnology
Funder: Strategic Priority Research Program of CAS, National Transgenic Science and Technology Program, National Natural Science Foundation of China

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