E
Eric O. Goodwin
Researcher at Cawthron Institute
Publications - 24
Citations - 545
Eric O. Goodwin is an academic researcher from Cawthron Institute. The author has contributed to research in topics: Biotic index & Abundance (ecology). The author has an hindex of 10, co-authored 24 publications receiving 465 citations.
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Journal ArticleDOI
Quantifying relationships between land-use gradients and structural and functional indicators of stream ecological integrity
Joanne E. Clapcott,Kevin J. Collier,Russell G. Death,Eric O. Goodwin,Jon S. Harding,David W. Kelly,John R. Leathwick,Roger G. Young +7 more
TL;DR: In this paper, the relationship between three land uses (indigenous vegetation, urbanisation, and agriculture) and indicators of stream ecological integrity was investigated using Boosted Regression Tree Modeling (BRT).
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Exploring the response of functional indicators of stream health to land-use gradients
TL;DR: The strength of regression models and the nature of the response curves suggest that measures of ecosystem function exhibit predictable relationships with land use, and provides a strong argument for the inclusion of functional indicators in a holistic assessment of stream health.
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Can Weighted Useable Area Predict Flow Requirements of Drift-Feeding Salmonids? Comparison with a Net Rate of Energy Intake Model Incorporating Drift–Flow Processes
TL;DR: In this paper, a process-based invertebrate drift and drift-feeding net rate of energy intake (NREI) model and a traditional hydraulic-habitat model were compared for predicting the flow requirements of 52-cm Brown Trout Salmo trutta in a New Zealand river.
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Predictive depositional modelling (DEPOMOD) of the interactive effect of current flow and resuspension on ecological impacts beneath salmon farms
TL;DR: In this article, the authors examined the impact of sediment resuspension at five salmon farms with contrasting flow regimes to evaluate the role of modelled ressuspension dynamics in determining impacts, and showed that the association between current flow, sediment resusension and ecological impacts is more complex than presently encapsulated within DEPOMOD.
Predictive depositional modelling (DEPOMOD) of the interactive effect of current flow and resuspension on ecological impacts beneath salmon farms
TL;DR: In this paper, the role of modelled resuspension dynamics in determining impacts was evaluated at five farms with contrasting flow regimes to evaluate the role played by modelled sediment ressuspension dynamics and showed that the association between current flow, sediment resuspence and ecological impacts is more complex than presently encapsulated within DEPOMOD.