Your search keyword '"Gillson, Jonathan"' showing total 4 results

1. Coastal winds and larval fish abundance indicate a recruitment mechanism for southeast Australian estuarine fisheries.

Author

Schilling, Hayden T., Hinchliffe, Charles, Gillson, Jonathan P., Miskiewicz, Anthony G., and Suthers, Iain M.

Subjects

FISH larvae, FISHERIES, BYCATCHES, WATER masses, LAND use planning

Abstract

Coastal winds transport water masses and larval fish onshore or offshore which may influence estuarine recruitment, yet our understanding of the mechanism underlying this relationship is limited. Here, we combine datasets from a historical database of larval fish off southeast Australia with a high‐resolution atmospheric reanalysis model to show that normalised abundance of coastally spawned larvae increased with weak to moderate upwelling favourable winds 14 days prior to sampling. The increase in abundance may reflect increased nutrient and plankton availability for larval fish. Normalised larval abundance decreased following strong upwelling favourable winds but increased after onshore (downwelling favourable) winds, due to wind‐driven transport. By combining a commercial estuarine fisheries catch‐rate dataset (4 species, 8 estuaries, 10 years) and the high‐resolution atmospheric reanalysis model, we show that negative effects of upwelling favourable winds during the spawning period can be detected in lagged estuarine commercial fisheries catch rates (lagged by 2–8 years depending on species' growth rates), potentially representing the same mechanism proposed for larval fish. Upwelling favourable winds in the southeast Australian region have increased since 1850 while onshore winds have decreased, which may have reduced larval recruitment to estuaries. Coastal winds are likely an important factor for estuarine recruitment in the southeast Australian region and future research on the estuarine recruitment of fish should incorporate coastal winds. [ABSTRACT FROM AUTHOR]

Published

2022

2. Freshwater flow and commercial fisheries production in estuarine and coastal systems

Author

Gillson, Jonathan Peter

Subjects

Estuarine and Coastal Systems, Fisheries, Freshwater flow

Abstract

Freshwater flow profoundly influences fisheries production in estuarine and coastal systems. Although connections between freshwater flow and fisheries production are well established, underlying mechanisms remain poorly understood. Investigating relationships between freshwater flow and fisheries production is essential to ensure that the interests of commercial fishers are represented in debates over environmental flows. This thesis examines the impacts of freshwater flow on the production and profitability of estuarine and coastal fisheries. Chapter 1 outlines relationships between freshwater flow and fisheries production in estuarine and coastal systems. Chapter 2 presents a literature review which indicates that freshwater flow influences fisheries production by regulating habitat availability, trophic interactions and fishers’ harvesting behaviour. Chapter 3 examines relationships between hydrological variation and the commercial catch rates of five estuarine-associated fish species from nine estuaries in New South Wales (NSW), eastern Australia. Freshwater enhancement of fisheries production was evident, with increased catch rates in months with higher flow. Freshwater flow per se, however, was not as important in influencing catch rates as episodic flow events. Chapter 4 explores the impacts of episodic flow events on estuarine and coastal fisheries by examining multivariate patterns in landings, effort and revenue between periods of flood and drought. Results indicate that flood and drought events influence the bio-economic productivity of commercial fisheries by modifying landings composition, fishers’ harvesting behaviour and revenue generation. Chapter 5 presents a multi-species, multi-method bio-economic analysis that was used to evaluate the economic performance of fishers’ harvesting strategies between non-drought and drought conditions. Projections from the model indicate that droughts redistribute revenue and profit among fishing methods, modifying the economic performance of commercial fisheries. Although diversified harvesting behaviour increased revenue generation, this marginal economic benefit was compromised by higher costs which lowered profitability. Results indicate that the commercial fishing sector is a drought-affected industry in coastal NSW. Chapter 6 summarises the findings of the research presented in this thesis and suggests directions for future work. The research described here provides empirical evidence that freshwater flow regulates the availability of fisheries resources, fishers’ harvesting behaviour and the economic performance of commercial fisheries in estuarine and coastal systems.

Published

2011

3. Spreading the economic risk: Harvesting strategies of multi-method inshore fisheries during drought in eastern Australia

Author

Gillson, Jonathan and Scandol, James

Subjects

*FISHERIES, *DROUGHTS, *FISHERY economics, *HYDROLOGY, *RISK management in business, *TRAWLING

Abstract

Abstract: Droughts are likely to increase in frequency and severity with climate change, modifying the economic viability of inshore fisheries in regions of hydrological extreme. Variation in the revenue and profit associated with different mixtures of fishing methods between non-drought and drought conditions was examined for commercial fishing businesses in three estuarine and coastal systems in eastern Australia from 1997 to 2007. Mean monthly revenue decreased from 8 to 36% between non-drought and drought. Decreased mean monthly revenue was primarily attributed to reduced revenue generation from ocean prawn trawling (≥20%) and estuarine prawn trawling (≥34%) during drought. Fishing method diversity (measured by a modified form of the Shannon index) and mean monthly revenue were positively related; however, mean monthly profit decreased between non-drought and drought under a range of alternative cost scenarios. Reduced mean monthly profit was primarily attributed to losses from ocean prawn trawling (≥15%) and estuarine prawn trawling (≥30%) during drought. Although diversified harvesting behaviour increased revenue generation, initial results indicated that this marginal economic benefit could have been compromised by the greater costs associated with the increased diversification which reduced overall profitability. Results of this analysis indicated that the commercial fishing sector is a drought-affected industry in New South Wales. [Copyright &y& Elsevier]

Published

2012

4. Estuarine gillnet fishery catch rates decline during drought in eastern Australia

Author

Gillson, Jonathan, Scandol, James, and Suthers, Iain

Subjects

*FISHERIES, *ESTUARIES, *GILLNETTING, *SPAWNING, *DROUGHTS, *AQUATIC habitats, *BIOAVAILABILITY, *FISH migration

Abstract

Abstract: Commercial catch-per-unit-effort (CPUE) data from nine estuaries were related to hydrological variation in eastern Australia. Relationships between drought declaration, rainfall, freshwater flow and fisheries catch rates were assessed from 1997 to 2007. Estuaries varied from 0.5 to 2.0×106 ML of mean freshwater inflow per annum. Monthly CPUE data from gillnetting were used to infer the abundance of yellowfin bream (Acanthropagrus australis), dusky flathead (Platycephalus fuscus), luderick (Girella tricuspidata), sand whiting (Sillago ciliata) and sea mullet (Mugil cephalus). CPUE for all species examined, except yellowfin bream, increased in proportion to freshwater flow and decreased during periods of drought. Freshwater flow may affect CPUE by stimulating migration and schooling due to salinity fluctuations altering habitat availability. Minimum and maximum flows were important determinants of CPUE. Freshwater flow per se may not be as important in influencing CPUE as extremes in the hydrological continuum. Seasonal flows were consistently the most important aspect of the flow regime that explained the highest proportion of variability in CPUE. Seasonal freshwater pulses proximate to critical reproductive periods may influence catchability by triggering seaward spawning migrations in estuarine-dependent fish. [Copyright &y& Elsevier]

Published

2009