Resilience of Moreton Bay to climate change: Links between nutrient inputs and plankton dynamics (2009-2011)
Source: https://about.uq.edu.au/experts/project/10369 Parent: https://about.uq.edu.au/experts/920
Abstract
The health of bays globally is increasingly threatened by eutrophication and climate change. Moreton Bay is an area of outstanding natural and socio-economic value with a burgeoning population. Projections of more intense cyclones coupled with lower average rainfall will cause ephemeral pulses of sediment and nutrients. To future-proof the health of Moreton Bay it is critical we understand the relationship between nutrient cycling and plankton. We will implement a field programme to quantify relationships among nutrients, sediment and plankton. This conceptual understanding will support development of a simple, dynamic model to assess the resilience of plankton to future human-induced changes.'',
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Experts
Professor Anthony Richardson
Affiliate of Centre for Marine Science : Centre for Marine Science : Faculty of Science
Affiliate of Centre for Biodiversity and Conservation Science : Centre for Biodiversity and Conservation Science : Faculty of Science
Professor : School of the Environment : Faculty of Science
Professor Hugh Possingham
Affiliate of Centre for Marine Science : Centre for Marine Science : Faculty of Science
Affiliate of Centre for Biodiversity and Conservation Science : Centre for Biodiversity and Conservation Science : Faculty of Science
V-C Senior Research Fellow : School of the Environment : Faculty of Science
Grant type : ARC Linkage Projects
Funded by : Australian Research Council