Microsensors technology used to measure productivity and other biochemical processes in the upper regions of aquatic sediments


Autoria(s): Bird, Paul; Werner, Ursula; Eickert, Gaby; Polerecky, Lubos; Grunwald, Bjorn; Kuhl, Michael; Holst, Gerhard; deBeer, Dirk
Contribuinte(s)

John N. A. Hooper

Narelle Hall and Bernard M. Degnan

Data(s)

01/01/2003

Resumo

Carbonate sediments are dynamic three-dimensional environments where the surface layers are constantly moving and mixing due to the energy of the water column. It is also an environment of dynamic biological, chemical and physical interaction and modification. The biological community can actively influence changes to sediment characteristics and associated biochemistry. Bioturbation resulting from macrofaunal activity disrupts sediment structure and biochemical arrangements and reduces the critical shear forces required to move sediment particles, adding to the dynamic and complex physical and biogeochemical nature of the sediment. Laboratory studies using both planner optodes and glass needle microsensors were used to measure abiotic sediment characteristics such as the depth distribution and concentrations of PAR. The biochemical nature of coral reef sediment were also investigated, specifically the quantification and the distribution of dissolved oxygen within coarse and fine-grained sediments under regimes of light and darkness. Results highlighted the significant contribution microalgal productivity and bioturbation has on distribution of dissolved oxygen in the upper sediment layers. On the reef flat a shallow water lander system was employed to measure concentrations of O2, pH, S, Ca and temperature over periods of 24 to 48 hours in coarse and fine-grained sediments. Similarities between laboratory and in situ results where evident, however the in situ environment was more dynamic and the distribution and concentrations of dissolved oxygen were more complex and correlated to irradiance, temperature and biological activity. Microsensor technology provides us with the opportunity to study, at very high resolutions, the upper irradiated; photosynthetically active regions of aquatic sediments along with anoxic processes deeper in sub-euphotic regions of the sediments.

Identificador

http://espace.library.uq.edu.au/view/UQ:99694

Idioma(s)

eng

Publicador

Australian Marine Sciences Association

Palavras-Chave #EX #270702 Marine and Estuarine Ecology (incl. Marine Ichthyology) #780105 Biological sciences
Tipo

Conference Paper