New paper out today in Limnology & Oceanography (@aslo_org) led by all-around great guy & scientist Mike Coffin!
“The killer within: Endogenous bacteria accelerate oyster mortality during sustained anoxia”
aslopubs.onlinelibrary.wiley.com/doi/full/10.10…
“The killer within: Endogenous bacteria accelerate oyster mortality during sustained anoxia”
aslopubs.onlinelibrary.wiley.com/doi/full/10.10…
In a suite of experiments comparing #oysters treated w/ antibiotics vs. not, we demonstrate that bacteria endogenous to oysters accelerate mortality rates
The 3-year project was triggered by mass mortality of cultured oysters in 2016, seemingly linked to a period of low O₂
The 3-year project was triggered by mass mortality of cultured oysters in 2016, seemingly linked to a period of low O₂
Generally, we found that oysters treated w/ antibiotics (chloramphenicol) lived approx. twice as long as those not treated with antibiotics
Oyster density appeared to have no effect on mortality rates under anoxia
Oyster density appeared to have no effect on mortality rates under anoxia
Moribund/post-mortem histology confirmed the presence of bacteria in tissues of untreated oysters and a general lack thereof in antibiotic-treated oysters
Next-gen sequencing failed to identify a particular type of bacteria associate w/ mortality, but a diverse array of endogenous anaerobic & sulfate-reducing bacteria were common
We also monitored valve gaping behaviour in the lab (1st image) & field (2nd image) during anoxia, showing that oysters exhibit remarkable valve closure synchrony when initially exposed to anoxia, but individualized periodic openings thereafter
Overall, our results + previous studies strongly suggest that anoxia-related mass mortality events in bivalves are likely the result of co-morbidity from asphyxiation & bacterial processes
The results provide important information for understanding mechanisms of mortality as the frequency & severity of coastal anoxic/hypoxic events continues to increase
science.sciencemag.org/content/359/63…
science.sciencemag.org/content/359/63…
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