Are your plants waxing poetic? The Soil Science Society of America (SSSA) August 1 Soils Matter blog post explains how plants and soil communicate—even without the advantage of words.
A research group led by Raimund Fromme has gained important new insights by resolving with near-atomic clarity, the very first core membrane protein structure in the simplest known photosynthetic bacterium, called Heliobacterium modesticaldum (Helios was the Greek sun god).
By solving the heart of photosynthesis in this sun-loving, soil-dwelling bacterium, Fromme’s research team has gained a fundamental new understanding of the early evolution of photosynthesis, and how this vital process differs between plants systems.
Two new varieties of kidney beans – Talon and Rosie – have recently been released. Both show improved resistance to root diseases that commonly cause crop loss.
Swarms of the insect have descended broadly across the region and that delicate leaf-cutting they practice is making some trees and other plants in the area look as if it’s November rather than mid-July.
The DOE has announced funding for new research centers to accelerate the development of specialty plants and processes for a new generation of biofuels and bioproducts.
Using a genetically modified line of switchgrass, scientists reduced plant cell wall recalcitrance while increasing sugar release over three generations.
Iowa State University scientists are untangling the complex genetic mechanisms that control growth and stress response in plants. A recently published paper from the researchers identifies a group of proteins that may be of interest to plant breeders eager for crop varieties that will withstand dry conditions.
In a paper published today in PLOS Genetics researchers conducted a high-throughput phenotyping experiment to map genes that regulate plant height in the model bioenergy grass Setaria.
When does a (typically) vegetarian caterpillar become a cannibalistic caterpillar, even when there is still plenty of plant left to eat? When the tomato plant it’s feeding on makes cannibalism the best option. “It often starts with one caterpillar biting another one in the rear, which then oozes. And it goes downhill from there,” says University of Wisconsin–Madison integrated biology Professor John Orrock.
A University of Kentucky plant pathologist is part of an international team of researchers who have uncovered an important link to a disease which left unchecked could prove devastating to wheat.
Researchers at the DOE Joint BioEnergy Institute, in collaboration with the Joint Genome Institute, are reporting the first whole-genome sequence of a mutant population of Kitaake, a model variety of rice. Their high-density, high-resolution catalog of mutations facilitates the discovery of novel genes and functional elements that control diverse biological pathways.
Researchers have discovered the earliest evidence of wild potato use in North America. This is the first archaeological study to identify a spud-bearing species native to the southwestern United States, the Four Corners potato (S. jamesii), as an important part of ancient human diets.
Most organisms share the biosynthetic pathways for making crucial nutrients because it is is dangerous to tinker with them. But now a collaborative team of scientists has caught plants in the process of altering where and how cells make an essential amino acid.
The peanut and its kin have not one, but two ways to make the amino acid tyrosine, one of the 20 required to make all of its proteins, and an essential human nutrient. That might seem small, but why this plant family has a unique way to make such an important chemical building block is a mystery that has captured the attention of Hiroshi Maeda, a professor of botany at the University of Wisconsin–Madison.
A new study by a team of plant biologists from the National University of Singapore found that some plants may selectively kill part of their roots to survive under cold weather conditions.
Scientists at Berkeley Lab and Michigan State University are providing the clearest view yet of an intact bacterial microcompartment, revealing at atomic-level resolution the structure and assembly of the organelle's protein shell. This work can help provide important information for research in bioenergy, pathogenesis, and biotechnology.
Ancestors of the iconic New Zealand Christmas Tree, Pōhutukawa, may have originated in Australia, new fossil research from the University of Adelaide suggests.
Plants and soil microbes may be altered by climate warming at different rates and in different ways, meaning vital nutrient patterns could be misaligned.
A plant found throughout Southeast Asia traditionally used to treat arthritis and rheumatism contains a potent anti-HIV compound more powerful than the drug AZT, according to a new paper published in the Journal of Natural Compounds.
In 1859, Charles Darwin included a novel tree of life in his trailblazing book on the theory of evolution, On the Origin of Species. Now, scientists from Rutgers University-New Brunswick and their collaborators want to reshape Darwin’s tree.
Researchers at the University of Wisconsin–Madison have identified a gene that keeps grasses from entering their flowering cycle until the season is right, a discovery that may help plant breeders and engineers get more from food and energy crops.
A new study by scientists at the University of Birmingham has revealed a group of cells that function as a ‘brain’ for plant embryos capable of assessing environmental conditions and dictating when seeds will germinate.
A molecular system for artificial photosynthesis is designed to mimic key functions of the photosynthetic center in green plants—light absorption, charge separation, and catalysis—to convert solar energy into chemical energy stored by hydrogen fuel.
Corn, beans, and squash—the “three sisters”—have traditionally been grown together for best results. The Soil Science Society of America (SSSA) June 1 Soils Matter blog post explains how companion plantings use plants’ strengths to their best advantage.
Researchers have figured out how a once-defeated bacterium has re-emerged to infect cotton in a battle that could sour much of the Texas and U.S. crop.
And it boils down to this: A smart bacteria with a sweet tooth.
A spider and an ant with names drawn from popular books, a pink katydid and an omnivorous rat made ESF's list of the Top 10 New Species for 2017. Also listed: a freshwater stingray, a bush tomato that appears to “bleed,” a devilish-looking orchid, a millipede with more than 400 legs, an amphibious centipede and a marine worm.
A University of Delaware professor teamed with a local high school student on research that found injured plants will send out warning signals to neighboring plants. The signals are sent through airborne chemicals released mainly from leaves, and plants that received them boosted their defenses.
UF/IFAS researchers have discovered that a mandarin hybrid developed by colleagues contains cellular activity – known as metabolites -- that makes it more able to fend off greening than most other types of citrus.
The carnivorous humped bladderwort plant, Utricularia gibba, is a sophisticated predator. It uses vacuum pressure to suck prey into tiny traps at speeds less than a millisecond. A new genomic analysis shows that, over millions of years, it repeatedly retained and enhanced genetic material associated with its carnivorous nature. These include genes that facilitate the trapping of prey, the digestion of proteins, and the transport of small bits of protein from one cell to another.
Around 66 million years ago, at the end of the Cretaceous period, a giant asteroid crashed into the present-day Gulf of Mexico, leading to the extinction of the non-avian dinosaurs. How plants were affected is less understood, but fossil records show that ferns were the first plants to recover many thousands of years afterward.
Now, a team including Cornell researchers reports the discovery of the first fossilized flowers from South America, and perhaps the entire Southern Hemisphere, following the extinction event
A new study sequences the genomes of 80 silver birch trees, a tree that has not been studied much by scientists despite its commercial value for papermaking, construction, furniture-building and more.
Researchers identified genetic mutations including mutations that may affect how well birch trees grow and respond to light at different latitudes and longitudes and under different environmental conditions. The research could help breed trees that better meet the needs of various industries.
A recent discovery by Sandia National Laboratories researchers may unlock the potential of biofuel waste — and ultimately make biofuels competitive with petroleum.
Shortly before her retirement, UF/IFAS plant pathology professor Monica Elliott talked about the past, present and predicted future of the health of Florida palm trees. She spoke at this week's meeting of the Florida Phytopathological Society.
Biologists at UC San Diego have provided the first evidence that a widely used pesticide can significantly impair the ability of otherwise healthy honey bees to fly. The study, which employed a bee “flight mill,” raises concerns about how pesticides affect honey bee pollination and long-term effects on the health of honey bee colonies.
Scientists believe that biochar, the partially burned remains of plants, has been used as fertilizer for at least 2,000 years in the Amazon Basin. Since initial studies published several years ago promoted biochar, farmers around the world have been using it as a soil additive to increase fertility and crop yields. But a new study casts doubt on biochar’s efficacy, finding that using it only improves crop growth in the tropics, with no yield benefit at all in the temperate zone.
Deprived of oxygen, naked mole-rats can survive by metabolizing fructose just as plants do, researchers report this week in the journal Science – a finding that could lead to treatments for heart attacks and strokes.
An interdisciplinary teams of experts argue that world hunger and biodiversity loss can both be addressed by ensuring that women worldwide have access to education and contraception.
A photo of a cup plant teaming with insects led a better understanding of the biology of Acanthocaudus wasps which inject their eggs into aphids that eat the plant. The adult wasps burst out of the aphids like an alien movie.
A multi-institutional team used resources at the Oak Ridge Leadership Computing Facility to catalog how desert plants photosynthetic processes vary. The study could help scientists engineer drought-resistant crops for food and fuel.
Approximately 10-20 percent of white dwarfs exhibit strong magnetic fields, some of which can reach up to 100,000 tesla. In comparison, on Earth, the strongest magnetic fields that can be generated using nondestructive magnets are about 100 tesla. Therefore, studying the chemistry in such extreme conditions is only possible using theory and until now has not provided much insight to the spectra accompanying white dwarfs. Researchers in Germany describe their work modeling these systems this week in The Journal of Chemical Physics.
A closer look at how the planet responds to greenhouse gases debunks recent observations suggesting Earth's temperature is less sensitive than climate models predict to rising carbon dioxide.