色情视频

Bacteria Surrounding Coral Reefs Change in Synchrony, Even Across Great Distance

The study was recently published in Nature Communications.

Friday, April 12, 2019
Image Courtesy: Jennifer Smith
Image Courtesy: Jennifer Smith
A study by researchers at 色情视频 (色情视频), the University of Hawai鈥榠 at Manoa (UH),  at University of California, San Diego (UCSD) and others revealed that the bacteria present in the water overlying dozens of coral reefs changed dramatically during the night, and then returned to the same daytime community as observed the morning before. Further, as if these communities were all privy to the same schedule, these changes were synchronized across reefs separated by hundreds of miles. 
The study was recently published in . 
鈥淚nvestigations of day-night rhythms of reef processes are required to holistically understand the functional roles of microbial players in these ecosystems,鈥 said Linda Wegley Kelly, adjunct assistant research professor at 色情视频 and co-lead author of the study. 
In 2013, an international team of researchers conducted a cruise to the Southern Line Islands, a remote chain of equatorial islands south of Hawai鈥榠, to measure a suite of reef processes. To avoid the hazards of boating and dive operations at night, an autonomous sampler was designed to collect a water sample just above the coral reef at midnight. Collecting samples in this way, the researchers measured changes in the water chemistry and the types of microbes present compared to the daytime at numerous sites. The team also used genomic tools to show how these community changes determine the microbial processes in reefs that differ day and night.   鈥淧revious studies of marine microbes have shown that different functional groups change their activity over the day, but microbial populations remain relatively constant over diel cycles,鈥 said Craig Nelson, assistant professor of oceanography at the UH Manoa  and study co-lead. 鈥淭hose who study reefs know that these ecosystems change significantly from day to night, but this study reveals one previously invisible aspect of that change: a dramatic and predictable shift鈥攏ot only in what microbes are doing鈥攂ut which groups are most abundant.鈥 
The team discovered that a group of microbes called Psychrobacter appears to be leading the way. Surprisingly, Psychrobacter can make up 40-70 percent of the marine microbial community during the day, and is a hundred-times more abundant than during the night.
鈥淭he changes we observed in microbe composition over a day-night cycle imply that coral reef habitats manipulate the surrounding seawater 鈥 both the chemistry and microbiology 鈥 based on the diurnal and nocturnal activities of the collective local biota,鈥 said Kelly. 鈥淭his function may modulate the number of microbes in the water, promote cycling of energy through the reef food web, or provide stabilizing effects to the ecosystem.鈥 
Given the apparent importance of Psychrobacter, the team next seeks to assemble its genome, isolate the bacterium in culture, and further examine the biology of this organism.
Ongoing work by the authors is showing how reef condition鈥攖hat is, healthy or stressed, dominance of coral or algae鈥攃an alter the number and types of microbes in the surrounding seawater. This highlights the environmental consequences of altering reef benthic habitats; where loss of the foundational calcifying organisms eliminates processes which impact the coastal waters that provide connectivity between land and sea.
This work was funded by the National Science Foundation, Hawai'i Sea Grant and the Gordon and Betty Moore Foundation.
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