The ecology of marine wood-borers in the coastal waters of Hong Kong.

Fung, Lin-foon.

January 1976

Thesis (M. Phil.)--University of Hong Kong, 1976.

Marine borers. Marine borers Shipworms.

The ecology of marine wood-borers in the coastal waters of Hong Kong

Fung, Lin-foon., 馮蓮歡.

January 1976

published_or_final_version / Zoology / Master / Master of Philosophy

Marine borers - China - Hong Kong.

Shipworms.

Controls on nitrogen fixation and nitrogen release in a diazotrophic endosymbiont of shipworms

Horak, Rachel Elizabeth Ann

15 November 2010

Nitrogen fixation is an ecologically important microbial process that can contribute bioavailable combined N to habitats low in N. Shipworms, or wood-boring bivalves, host N2-fixing and cellulolytic symbiotic bacteria in gill bacteriocytes, which have been implicated as a necessary adaptation to an N-poor C-rich (wooden) diet. Shipworm symbionts are known to fix N within the gill habitat and newly fixed N is subsequently incorporated into non-symbiont containing host tissue. The presence of N2-fixation in gill bacteriocytes presents a conundrum because N2-fixation is tightly regulated by oxygen in most other diazotrophic microbes. Also, the direct evidence of new N being incorporated into the host tissue indicates that there are potentially complex nutrient cycles in this symbiosis, which have not been investigated. We used the cultivated symbiont Teredinibacter turnerae, which has been isolated from many shipworm species, as a model organism to elucidate controls on N2-fixation and N release in the shipworm symbiosis. Our results indicate that headspace oxygen concentration does not control biomass specific N2-fixation and respiration activity in T. turnerae, but it does influence the magnitude of the growth rate and timing of culture growth. Also, we examined the controls of oxygen on inorganic nutrient uptake rates, and documented a small amount of dissolved inorganic nitrogen release. While the N budget is only partially balanced, we provide indirect evidence for the allocation of fixed N to the excretion of exopolymeric substances and dissolved organic nitrogen; future studies that measure these additional N sinks are necessary to close the N budget. Although there are limitations of using pure cultures to investigate a complex symbiotic system, this study provides direct experimental evidence that T. turnerae has adaptations that are conducive to N2-fixation in gill bacteriocytes.

Endosymbiont

Nitrogen release

Nitrogen fixation

Symbiosis

Teredinibacter turnerae

Cellulolysis

Diazotroph

Marine nitrogen cycle

Nitrogen Fixation

Shipworms

The Ruination of the Ship: Shipworms and their Impact on Human Maritime Travel

Hoberty, Trevor

January 2020

No description available.

Biology

Zoology

Wood Sciences

Naval Engineering

shipworms

Teredinidae

bioerosion

woodboring mollusks

marine borers

Teredo worms

Teredinibacter

shipworm bacterium

maritime history

maritime travel

wooden ships

shipbuilding

marine biology