The potential effects of climate change on southern calamary in Tasmanian waters: biology, ecology and fisheries

(3) Impacts on the fishery in Tasmania

When considering the issue of climate change and potential effects of this global phenomenon on the life-history, population biology, and fisheries of inshore squid, it needs to be highlighted that different degrees of certainty come into play when discussing various pieces of this complex puzzle. For example, the impacts of elevated temperature on the embryonic duration, size of hatchlings, and growth of adults, are well known and have a solid physiological basis. Thus, many of the ways in which individual components of climate change in isolation may impact on the lives of individual squid can be estimated with a reasonable degree of certainty. However, while population and individual-level processes are intimately linked, we unfortunately have a poor understanding of factors structuring and regulating cephalopod populations. The complexity of ecological interactions renders it very difficult to extrapolate from studies of individuals or populations to the community or ecosystem level (Walther et al. 2002). As cephalopods are ‘ecological opportunists’, it is even more difficult to suggest with any certainty what the impacts of climate change will be on aspects of their population or fishery biology.

 If generation times are shorter will southern calamary still exhibit aggregative spawning behaviour? Will spawning aggregations become less spatially and temporally predictable? If synchronicity of spawning activities is reduced, are miss-matches between peaks in spawning activity and peaks in production likely? Changes in the characteristics of spawning aggregations will have impacts on subsequent population dynamics, and also to the fishery itself. Spawning aggregations are very easy and cost effective for fishers to target, if aggregations are less predictable, or less dense will fishers shift to other already overexploited resources?

 Will the location of peak abundance shift? This could occur either 1/ further south

towards the major population centre of Hobart, and away from coastal fishing towns on east coast, or 2/ into deeper and therefore cooler water further away from the coast, and less accessible to small-scale fishers in 6m boats.

 Will the peak in spawning become harder to predict? Currently the main management objective is to provide protection to spawning adults via short-term closures to ensure each generation deposits sufficient eggs. Any changes in the predictability of spawning activities will necessitate changes to management strategies.

 Climate change will have substantial impact on the size of individuals, this needs to be monitored and considered in management evaluations as body size will alter correct interpretation of both effort and catch per unit effort (CPUE) assessments of the fishery (Pecl et al. in press b). The effort and CPUE statistics for a population made up of 300g individuals will be very different to that of a population made up of 3000g individuals.

 If the ‘peripheral’ and ‘central’ genetic types (Triantafillos and Adams 2001) have different thermal preferences, and the distribution of the two types alters in accordance with these thermal preferences, Tasmania could see a different genetic type, or mix of genetic types present. This would considerably complicate management of the resource. The ‘peripheral’ type of southern calamary may have a reproductive strategy more towards the terminal end of the spawning continuum (Pecl 2001), and may therefore require a different management strategy to the other multiple spawning type of calamary currently found in Tasmanian waters. Additionally, hybrids of the two types appear to be reproductively compromised (Triantafillos and Adams 2001), and so substantial mixing of the two types may lower the reproductive output of the population.
The southern calamary inshore jig fishery is an integral part of the Tasmanian Commercial Scalefish Fishery. There are several hundred licences for this whole fishery, and although of relatively low total value compared to abalone or rock lobster, it is of crucial importance for regional employment in Tasmania. The total annual value of the calamary component of the fishery at first point of sale is approximately $1,000,000. Fishers receive $7 -12kg, making calamary one of the highest value species in the Tasmanian Scalefish Fishery. Individual owner/operators gross an average of $55,000 AUD (across all species caught within the fishery), and boat hands are paid a percentage of the catch from 14-30% (Bradshaw 2003). Many fishers fish exclusively near their home base, and distribution of home bases is skewed towards regional areas – many said most of their expenditure associated with fishing occurs within their home region (Bradshaw 2003). Southern calamary is also a key recreational species in Tasmania, with recreational fishers taking approximately one-third the catch of commercial fishers (Lyle and Haddon 2003).

Ecologically, the importance of southern calamary should not be under-estimated. It is a major component in the diet of pilot whales and bottlenose dolphins (Gales and Pemberton 1992). Unspecified squid are also major prey items in Australian fur seals, Minke whale, southern right whale dolphin, killer whale and porpoise in Tasmania or southeast Australian continental shelf (Davenport and Bax 2002). All major predator groups (sharks, fishes and marine mammals) rely on squid populations as a significant component of their diet (Smale 1996).

The potential impacts of climate change at the individual, population and fishery level discussed here for southern calamary in Tasmania have a much broader relevance than this specific species at this location. Inshore squid species with similar life–history characteristics, also targeted as part of multi-species artisanal fisheries, occur throughout the world on the northeast seaboard of North America, the Pacific coast of South America, the south coast of Africa, and small seaports along the European Atlantic and Mediterranean oceans.