Abalone Greenlip References

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Tasmanian Wild Fisheries Assessments

Abalone Greenlip References

Abalone References

Assessments

12020394 MXGCAES5 Assessment apa 50 creator desc year 8822 https://tasfisheriesresearch.org/wp-content/plugins/zotpress/

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Tarbath, D., Hodgson, K., Karlov, T., & Haddon, M. (2001). Tasmanian abalone fishery assessment 2000. https://tasfisheriesresearch.org/wp-content/uploads/2022/11/Abalone_2000.pdf

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Tarbath, C. D., Mundy, C., & Haddon, M. (2004). Tasmanian abalone fishery assessment 2004 (p. 139). https://tasfisheriesresearch.org/wp-content/uploads/2022/11/Tarbath-et-al.-2004-FISHERY-ASSESSMENT-REPORT.pdf

Tarbath, C. D., Mundy, C., & Haddon, M. (2005). Tasmanian abalone fishery assessment 2005 (p. 120). https://tasfisheriesresearch.org/wp-content/uploads/2022/11/Tarbath-et-al.-2005-FISHERY-ASSESSMENT-REPORT.pdf

Tarbath, C. D., Mundy, C., & Haddon, M. (2006). Tasmanian abalone fishery assessment 2006 (p. 83). https://tasfisheriesresearch.org/wp-content/uploads/2022/11/Tarbath-et-al.-2006-FISHERY-ASSESSMENT-REPORT.pdf

Tarbath, C. D., Mundy, C., & Haddon, M. (2007). Tasmanian abalone fishery assessment 2007 (p. 90). https://tasfisheriesresearch.org/wp-content/uploads/2022/11/Tarbath-et-al.-2007-FISHERY-ASSESSMENT-REPORT.pdf

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Lyle, J. M., Ewing, F., Ewing, G., & Tracey, S. (2021). Tasmanian recreational rock lobster and abalone fisheries: 2020-21 fishing season. https://fishing.tas.gov.au/Documents/Rock_Lobster_Abalone_Survey_Recreational-20-21.pdf

Biology

Diet

12020394 MXGCAES5 Abalone,Diet apa 50 creator asc 8822 https://tasfisheriesresearch.org/wp-content/plugins/zotpress/

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Guest, M. A., Nichols, P. D., Frusher, S. D., & Hirst, A. J. (2008). Evidence of abalone (Haliotis rubra) diet from combined fatty acid and stable isotope analyses. Marine Biology, 153(4), 579–588. https://doi.org/10.1007/s00227-007-0831-9

Genetics

12020394 MXGCAES5 Genetics apa 50 creator asc 8822 https://tasfisheriesresearch.org/wp-content/plugins/zotpress/

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Brown, L. D. (1991). Genetic Variation and Population Structure in the Blacklip Abalone, Haliotis rubra. Australian Journal of Marine and Freshwater Research, 42, 77–90.

Brown, L. D. (1995). Genetic evidence for hybridisation between Haliotis rubra and H. laevigata. Marine Biology, 123, 89–93.

Miller, K. J., Maynard, B. T., & Mundy, C. N. (2009). Genetic diversity and gene flow in collapsed and healthy abalone fisheries. Molecular Ecology, 18(2), 200–211. https://doi.org/10.1111/j.1365-294X.2008.04019.x

Miller, K. J., Mundy, C. N., & Mayfield, S. (2014). Molecular genetics to inform spatial management in benthic invertebrate fisheries: a case study using the Australian Greenlip Abalone. Molecular Ecology, 23(20), 4958–4975. https://doi.org/10.1111/mec.12914

Temby, N., Miller, K., & Mundy, C. (2007). Evidence of genetic subdivision among populations of blacklip abalone (Haliotis rubra Leach) in Tasmania. Marine and Freshwater Research, 58(8), 733–742. https://doi.org/10.1071/MF07015

Growth

12020394 MXGCAES5 Growth apa 50 creator asc 8822 https://tasfisheriesresearch.org/wp-content/plugins/zotpress/

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Haddon, M., Mundy, C., & Tarbath, D. (2008). Using an inverse-logistic model to describe growth increments of blacklip abalone (Haliotis rubra) in Tasmania. Fishery Bulletin, 106(1), 58–71.

Helidoniotis, F., & Haddon, M. (2012). Growth model selection for juvenile blacklip abalone (Haliotis rubra): assessing statistical and biological validity. Marine and Freshwater Research, 63(1), 23–33. https://doi.org/10.1071/MF11103

Helidoniotis, F., Haddon, M., Tuck, G., & Tarbath, D. (2011). The relative suitability of the von Bertalanffy, Gompertz and inverse logistic models for describing growth in blacklip abalone populations (Haliotis rubra) in Tasmania, Australia. Fisheries Research, 112(1), 13–21. http://www.sciencedirect.com/science/article/pii/S0165783611002748

Movement and Spatial

12020394 MXGCAES5 Movement,Spatial 1 apa 50 creator asc 8822 https://tasfisheriesresearch.org/wp-content/plugins/zotpress/

Predation

12020394 MXGCAES5 Abalone,Predation apa 50 creator asc 8822 https://tasfisheriesresearch.org/wp-content/plugins/zotpress/

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Pederson, H. G., Barrett, N. S., Frusher, S. D., & Buxton, C. D. (2008). Effect of predator–prey and competitive interactions on size at emergence in the black-lip abalone Haliotis rubra in a Tasmanian MPA. Marine Ecology Progress Series, 366, 91–98. http://dx.doi.org/10.3354/meps07521

Shepherd, S. A., & Turner, J. A. (1985). Studies on southern Australian abalone (genus Haliotis). VI. Habitat preference, abundance and predators of juveniles. Journal of Experimental Marine Biology and Ecology, 93(3), 285–298. https://doi.org/10.1016/0022-0981(85)90245-X

Settlement and Recruitment

12020394 MXGCAES5 Abalone,Settlement apa 50 creator asc 8822 https://tasfisheriesresearch.org/wp-content/plugins/zotpress/

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Shepherd, S. A., & Turner, J. A. (1985). Studies on southern Australian abalone (genus Haliotis). VI. Habitat preference, abundance and predators of juveniles. Journal of Experimental Marine Biology and Ecology, 93(3), 285–298. https://doi.org/10.1016/0022-0981(85)90245-X

Survival

12020394 Abalone,Survival apa 50 creator asc 8822 https://tasfisheriesresearch.org/wp-content/plugins/zotpress/

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McShane, P. E. (1994). Recruitment processes in abalone (Haliotis spp). In Y. Watanabe, Y. Yamashita, & Y. Oozeki (Eds.), Survival strategies in early life stages of marine resources (p. 350). A.A. Balkema.

McShane, P. E. (1994). Recruitment processes in abalone (Haliotis spp). In Y. Watanabe, Y. Yamashita, & Y. Oozeki (Eds.), Survival strategies in early life stages of marine resources (p. 350). A.A. Balkema.

Roberts, R. D., & Lapworth, C. (2001). Effect of delayed metamorphosis on larval competence, and post-larval survival and growth, in the abalone Haliotis iris Gmelin. Journal of Experimental Marine Biology and Ecology, 258(1), 1–13.

Roberts, R. D., & Lapworth, C. (2001). Effect of delayed metamorphosis on larval competence, and post-larval survival and growth, in the abalone Haliotis iris Gmelin. Journal of Experimental Marine Biology and Ecology, 258(1), 1–13.

Strain, E. M. A., & Johnson, C. R. (2009). Competition between an invasive urchin and commercially fished abalone: effect on body condition, reproduction and survivorship. Mar Ecol Prog Ser, 377, 169–182. https://doi.org/DOI: https://doi.org/10.3354/meps07816

Strain, E. M. A., & Johnson, C. R. (2009). Competition between an invasive urchin and commercially fished abalone: effect on body condition, reproduction and survivorship. Mar Ecol Prog Ser, 377, 169–182. https://doi.org/DOI: https://doi.org/10.3354/meps07816

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Abalone – Blacklip
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Abalone – Greenlip
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Oyster – Native Flat
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- Background
- Fishery Management
- Cultural Fishing
- Commercial Catch, Effort & CPUE
- Biology
- Ecosystem & Habitat Interactions
- References
Periwinkle
- Status
- Background
- Fishery Management
- Cultural Fishing
- Commercial Catch & Effort
- Biology
- Ecosystem & Habitat Interactions
- Social & Economic Indicators
  - Workforce
  - Harvest Value
- References
Rock Lobster
- Status
- Background
- Fishery Management
- Cultural Fishing
- Recreational Fishery
  - Recreational Catch & Effort
  - Recreational CPUE
- Commercial Catch & Effort
- Commercial CPUE
  - Area CPUE
  - Fine-Scale CPUE
- Assessment Model
  - Model Results
  - Model Parameters
- Biology
  - Recruitment
    - Dispersal Modelling
    - Puerulus Monitoring
- Ecosystem & Habitat Interactions
- Social & Economic Indicators
- References
Scallop
- Status
- Fishery Management
- Recreational Fishery
- Commercial Catch
- Biology
- Ecosystem and Habitat Interactions
- Social and Economic Indicators
  - Workforce
- References
Snook
- Scalefish Fishery
- Commercial Catch, Effort & CPUE
- Risk-Based Framework
- Catch Only Approach
- Biology
- Social & Economic Indicators
Southern Garfish
- Scalefish Fishery
- Commercial Catch, Effort & CPUE
- Risk-Based Framework
- Catch Only Approach
- Biology
- Social & Economic Indicators
Squid – Gould’s
- Scalefish Fishery
- Commercial Catch, Effort & CPUE
- Biology
- Social & Economic Indicators
Squid – Southern Calamari
- Scalefish Fishery
- Commercial Catch, Effort & CPUE
- Risk-Based Framework
- Catch Only Approach
- Biology
- Social & Economic Indicators
Striped Trumpeter
- Scalefish Fishery
- Commercial Catch, Effort & CPUE
- Risk-Based Framework
- Catch Only Approach
- Biology
- Fishery Surveys
  - Length Frequency Data
  - Age Composition Data
- Social & Economic Indicators
Undaria
- Status
- Background
- Fishery Management
- Commercial Catch and Effort
- Biology
- Ecosystem and Habitat Interactions
- References
Urchin – Longspined
- Status
- Background
- Fishery Management
- Commercial Catch & Effort
  - Fine-Scale Catch
- Commercial CPUE
- Biology
- Ecosystem & Habitat Interactions
- Social & Economic Indicators
  - Workforce
  - Harvest Value
- References
Urchin – Shortspined
- Background
- Fishery Management
- Commercial Catch, Effort & CPUE
- Biology
- Ecosystem & Habitat Interactions
- Social & Economic Indicators
  - Workforce
  - Harvest Value
- References
Wrasse – Bluethroat
- Scalefish Fishery
- Commercial Catch, Effort & CPUE
- Risk-Based Approach
- Catch Only Approach
- Biology
- Social & Economic Indicators
Wrasse – Purple
- Scalefish Fishery
- Commercial Catch, Effort & CPUE
- Risk-Based Approach
- Catch Only Approach
- Biology
- Social & Economic Indicators
Yelloweye Mullet
- Scalefish Fishery
- Commercial Catch, Effort & CPUE
- Risk-Based Framework
- Biology
- Social & Economic Indicators
About Us
- Taroona Facility

Tasmanian Stock Status
Species Information
About Us

Tasmanian Wild Fisheries Assessments

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