A research team reviewed the advancements in managing cassava brown streak disease (CBSD), highlighting the integration of new plant breeding technologies (NPBTs) with traditional breeding to enhance resistance.
The genus Musa, encompassing approximately 70 herbaceous species, is predominantly found in the tropical and subtropical regions of Asia and Oceania.
Cucumber (Cucumis sativus L.) holds significant importance among greenhouse vegetables in China, despite its relatively low salt tolerance. Grafting cucumber onto pumpkin rootstocks, which exhibit strong salt tolerance, can improve its resistance to saline conditions. Earlier research conducted by the team revealed that the pumpkin rootstock CmoNAC1 boosts salt tolerance in grafted cucumbers by modulating H2O2/ABA signaling and maintaining K+/Na+ balance through its interaction with the promoters of CmoRBOHD1/CmoNCED6 and CmoAKT1;2/CmoHKT1;1.
A research team completes a high-quality chromosome-scale assembly of the 'Chuanhonghua 1' safflower genome.
The frequency and intensity of plant stresses have increased in recent years due to climate change. Among them, low temperature is an unavoidable environmental factor limiting agricultural productivity.
Diosgenin, a secondary metabolite isolated from the Dioscorea spp. plant family, is an irreplaceable and ideal starting material for the synthesis of steroid hormone drugs.
In perennial woody plants, bud endodormancy is crucial for survival under adverse environmental conditions in winter such as low temperature (LT) and dehydration stress.
Grafting is a traditional and significant strategy to suppress soil-borne diseases, such as the crown gall disease caused by tumorigenic Agrobacterium and Rhizobium.
Climate experts from Florida Atlantic University, Archbold Biological Station, and Live Wildly Foundation will speak and answer questions from the media on the Florida Wildlife Corridor (FLWC) and Climate Change managing Florida’s Natural and Human Landscapes for Prosperity and Resilience
A research team has elucidated the role of polyploidy in the evolution and breeding of vegetable crops, leveraging advanced sequencing technologies to dissect the genetic and epigenetic nuances of polyploids.
A research team has shed light on the early morning 'golden hours' as a pivotal time for achieving optimal water use efficiency (WUE) in crops, revealing that plants can maintain lower transpiration rates and higher photosynthetic activity under favorable light conditions and minimal vapor pressure deficit (VPD).
A research team delves into the role of the Target of Rapamycin (TOR) signalling pathway in plant grafting, emphasizing its role in regulating seedling vigor, graft junction healing, and shoot-to-root communications.
A research team has made strides in uncovering the genetic foundations of flower color variation within the Rhododendron genus.
According to a research team led by palaeontologists from the University of Vienna, the net-like leaf veining typical for today’s flowering plants developed much earlier than previously thought, but died out again several times.
The chloroplast (cp) is critical for various biological functions in plants, such as photosynthesis and stress responses, with its genome offering simpler analysis and sequencing due to its size and reduced homologous influence.
A research team has unveiled 20 β-galactosidase (BGAL) genes within the longan genome, highlighting their crucial roles in embryogenic development and heat stress adaptation.
The transition from vegetative to reproductive stages in plants involves both internal and external cues, with grapevines (Vitis vinifera L. cv. Pixie) presenting a unique case.
The research unveils the superior tolerance of 'Shuzhen No.1', a novel Citrus junos rootstock, to flooding, alkaline, and freezing stresses over commonly used rootstocks. Grafted scions on 'Shuzhen No.1' exhibited enhanced growth and vigor, making it a promising candidate for future citrus cultivation.
A first-ever dataset bridging molecular information about the poplar tree microbiome to ecosystem-level processes has been released by a team of Department of Energy scientists led by Oak Ridge National Laboratory.
For millions of years, underground fungi have lived in symbiosis with plant roots. Researchers have been able to study both sides of this interaction up close, using RNA sequencing to understand gene expression: one of the first cross-kingdom spatially-resolved transcriptomics studies to date.
Acidic soil caused by changing climate patterns threatens agriculture sustainability across the globe. But the problem goes far beyond rising temperatures. One major cause for concern is more acidic soil, a product of increasing rainfall.
Passion fruit (Passiflora edulis), renowned for its nutritional richness and aromatic fruits, is widely cultivated in tropical and subtropical regions.
Leaf aging is a complex biological phenomenon influenced by growth stages, plant hormones, and various environmental conditions.
Chrysanthemum, celebrated for its ornamental, medicinal, and beverage value, faces significant threats from bacterial and fungal infections, particularly black spot disease caused by Alternaria alternate, which leads to severe economic losses.
Zinnia elegans is an annual herbaceous ornamental flower, widely cultivated in domestic and foreign gardens due to its diversity in flower types, color and landscaping versatility .
In China, a country hosting over 1,700 of the world’s roughly 30,000 orchid species, the orchid industry has witnessed substantial growth fueled by advancements in science and technology.
In the field of environmental and climate science, researchers have developed the Comprehensive Mechanistic Light Response (CMLR) gross primary production (GPP) dataset.
In natural environments, plants encounter biotic and abiotic stresses that can significantly affect their productivity and health.
Understanding the structure of crop canopies is essential for optimizing crop production as it significantly influences resource utilization efficiency, yield and stress resistance.
Soybeans, valued for their use as both oilseeds and grains, encounter yield limitations compared to crops like maize and rice, emphasizing the necessity for developing higher-yielding varieties .
Amidst challenges like a booming global population and diminishing arable land, plant phenotyping offers a way to automate agriculture and improve crop diagnostics.
Researchers from the University of Arizona and the Environmental Molecular Sciences Laboratory, a Department of Energy user facility, discovered that that plants can maintain specific microbe partnerships during times of drought, revealing a new level of resilience.
A recent study has highlighted the insignificant health hazards posed by the emissions from waste-to-energy (WtE) facilities in China's Bohai Rim. This investigation brings to light the negligible impact of WtE plant emissions on public health, grounded in sophisticated regression analysis techniques.
A Chula researcher has been successful in adding value to agricultural waste generated by industrial factories by transforming cassava waste and sewage sludge into organic fertilizer to replace the use of chemical fertilizers. He has also come up with a special formula of microbial inoculum that increases nutrients needed by plants.
Scientists at the U.S. Department of Energy’s (DOE) Brookhaven National Laboratory and Oklahoma State University have identified key genes and the mechanism by which they control flowering in sorghum, an important bioenergy crop.
The International Alliance for Phytobiomes Research is pleased to announce that Mosaic Biosciences™ has joined the organization as a sponsoring partner.
An international collaboration of scientists with the participation of an ecologist from RUDN University conducted the first global analysis of leaf type. In addition, the authors described the current state of forests and said what will happen to them by the end of the century due to climate change.
An international collaboration of scientists with the participation of a RUDN ecologist has for the first time assessed the natural potential of the world's forests to retain carbon. The results can be called hopeful - those regions where forests can still be restored have great potential and will help reduce the amount of greenhouse gases.
RUDN engineers found how internal combustion engine performance changes with rapeseed oil instead of regular diesel fuel. This data will help regulate engine operation and, in the future, switch to plant biofuel.
A greater understanding of how plants and microbes work together to store vast amounts of atmospheric carbon in the soil will help in the design of better bioenergy crops for the fight against climate change. Deciphering the mechanics of this mutually beneficial relationship is, however, challenging as conditions in nature are extremely difficult for scientists to replicate in the laboratory. To address this challenge, researchers created fabricated ecosystems or EcoFABs.
Imagine: You find the dried-up remains of a once green and lush philodendron on your bookshelf and realize you can’t remember the last time you watered your houseplants.
Irvine, Calif., Feb. 28, 2024 — In a study recently published in the journal Ecology, University of California, Irvine scientists uncover the intricate dance between drought, wildfires and invasive species in Southern California’s coastal sage scrub ecosystems. Titled “Long-term drought promotes invasive species by reducing wildfire severity,” the research, led by Sarah Kimball, Ph.
RUDN University ecologists have discovered that eucalyptus leaves can cure apples from fungal diseases. They can be a natural alternative to toxic fungicides.
RUDN University agronomists have discovered a bacteriophage that destroys bacteria dangerous to cabbage and other plants.
The critical role of gardeners in identifying 'future invaders' - ornamental plants that could become invasive species – has been revealed by researchers from the University of Reading and the Royal Horticultural Society.
Imagine if we could inhale scents that delay the onset of cancer, inflammation, or neurodegenerative disease. Researchers at the University of California, Riverside, are poised to bring this futuristic technology closer to reality.
This study uses forest inventory data from over 25,000 plots to show that the prevalence of tree pests is jointly controlled by the diversity and phylogenetic composition of forests.
The enigmatic Philistine culture, which flourished during the Iron Age (ca. 1200-604 BCE), profoundly affected the southern Levant's cultural history, agronomy, and dietary customs.
In 1934, American entomologist Elwood Zimmerman, then an undergraduate student at Berkeley, participated in the ‘Mangarevan expedition’ to Polynesia.
Iron is a micronutrient for plants. Biologists from the Institute of Botany at Heinrich Heine University Düsseldorf (HHU) describe in a study, which has now been published in the Journal of Cell Biology, that regulatory proteins for iron uptake behave particularly dynamically in the cell nucleus when the cells are exposed to blue light – an important signal for plant growth.
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