| Exudate (16) |  |
| Resin (89) | |
Rose amber, frankincense, myrrh, champaca flower, Peru balsam, cistus, palisander, cananga, hyssop, and narcissus absolute.
gurjum balsam, Sumatran dragons blood resin, olibanum, galangal, oleo gum resin, and frankincense. The RPG Series via Neatorama Share Thissubscribedel. icio. usfacebookredditstumbleupontechnorati n
which are the Eucalyptus gum trees) of Australia and Sequoia redwoods) of California. Both of those living trees can reach about 130 meters (425 feet) in height.
Take the gum arabic and gum karaya trees of southern Mali. For generations villagers cleared the trees for cattle land.
and promote bacteria by secreting mucilage that supports all types of growth. For researchers in the lab of Edward Theriot at The University of Texas at Austin diatoms (and their snot) are rich objects of biological research.
for the molecular production of the mucilage. People have been trying to characterize that mucilage chemically for 20 years
and haven't come up with much information Ashworth said. Taking a transcriptome approach I can generate a lot of data very quickly
Four of the taxa they sequenced produce visible mucilage and the other three taxa do not
but are closely related to the mucilage producers. They believe that closely related diatoms should share similar transcriptomes except for the mucilage-related genes.
There are hundreds of genes involved in the assembly packaging and secretion of these products Ashworth said.
In combination with Gum arabic (hardened sap obtained from the acacia tree) it can also delay the ripening of bananas.
Gum arabic can also be used on its own to enhance the shelf life and postharvest quality of tomatoes.
The greater surface area of cluster roots increases root exudates of organic acids and phosphatases. These exudates enhance plant phosphorus acquisition from unavailable forms in the soil.
I was particularly curious of the ecological role of this root adaptation explained Frida Piper a terrestrial ecosystem ecologist at the remote research center Centro de Investigaciã n en Ecosistemas de la
Piper is already exploring further research to understand how E. coccineum benefits neighbors by providing increased nutrient availability from root exudates
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