Forecast change in the abundance (number of individuals per 100 m2) of Haliotis rubra (blacklip abalone) and H. laevigata (greenlip abalone) by 2100 based on projections of August SST according to two climate change emissions scenarios: a high CO2 concentration stabilising scenario (WRE750) and a heavy mitigation Policy option (LEV1).

Box plots of the density of (a) greenlip and (b) blacklip abalone within their current distribution in South Australia, categorised according to average March Sea Surface Temperatures.

Bayden D. Russell (112904)
Sean D. Connell (112911)
Camille Mellin (112916)
Barry W. Brook (112923)
Owen W. Burnell (112931)
Damien A. Fordham (112936)

December 2012

Note the decrease in density of individuals for both species at 20°C and above.</p

Changing consumer strength in a changing climate

Mertens, Nicole Lee

January 2016

The intensity at which organisms interact is affected by abiotic conditions. Ocean warming and acidi...

Effects of ocean acidification on different life history stages of northern abalone (Haliotis kamtschatkana)

Crim, Ryan Nathanial

November 2010

Anthropogenic atmospheric CO₂ levels are rapidly increasing; however, much of this CO₂ (ca. 30%) dis...

Changes in potential fishing grounds for Haliotis rubra (blacklip abalone) and H. laevigata (greenlip abalone) in 2100 based on projections of August SST according to two climate change scenarios: a high CO2 concentration stabilising scenario (WRE750) and an alternative scenario that assumes strong mitigation (LEV1).

Bayden D. Russell (112904)
Sean D. Connell (112911)
Camille Mellin (112916)
Barry W. Brook (112923)
Owen W. Burnell (112931)
Damien A. Fordham (112936)

December 2012

Potential fishing grounds are defined based on a minimum abundance of 20 individuals/100 m2<...

Predicting the Distribution of Commercially Important Invertebrate Stocks under Future Climate

Bayden D. Russell
Sean D. Connell
Camille Mellin
Barry W. Brook
Owen W. Burnell
Damien A. Fordham

January 2012

The future management of commercially exploited species is challenging because techniques used to pr...

Population dynamics can be more important than physiological limits for determining range shifts under climate change

Fordham, Damien A.
Mellin, Camille
Russell, Bayden D.
Akçakaya, Reşit H.
Bradshaw, Corey J A
Aiello-Lammens, Matthew E.
Caley, Julian M.
Connell, Sean D.
Mayfield, Stephen
Shepherd, Scoresby A.
Brook, Barry W.

January 2013

Evidence is accumulating that species' responses to climate changes are best predicted by modelling ...

Predicting the distribution of commercially important invertebrate stocks under future climate

Russell, B.
Connell, S.
Mellin, C.
Brook, B.
Burnell, O.
Fordham, D.

January 2012

Extent: 9p.The future management of commercially exploited species is challenging because techniques...

Projecting Global Biodiversity Indicators under Future Development Scenarios

Visconti, Piero
Bakkenes, Michel
Baisero, Daniele
Brooks, Thomas
Butchart, Stuart H.M.
Joppa, Lucas
Alkemade, Rob
Marco, Moreno, Di
Santini, Luca
Hoffmann, Michael
Maiorano, Luigi
Pressey, Robert L.
Arponen, Anni
Boitani, Luigi
Reside, April E.
Vuuren, Detlef P., van
Rondinini, Carlo

January 2016

To address the ongoing global biodiversity crisis, governments have set strategic objectives and hav...

Projecting global biodiversity indicators under future development scenarios

Visconti, Piero
Bakkenes, Michel
Baisero, Daniele
Brooks, Thomas
Butchart, Stuart H. M.
Joppa, Lucas
Alkemade, Rob
Di Marco, Moreno
Santini, Luca
Hoffmann, Michael
Maiorano, Luigi
Pressey, Robert L.
Arponen, Anni
Boitani, Luigi
Reside, April E.
van Vuuren, Detlef P.
Rondinini, Carlo

January 2016

To address the ongoing global biodiversity crisis, governments have set strategic objectives and hav...

Risk Assessment of Impacts of Climate Change for Key Marine Species in South Eastern Australia. Part 2: species profiles

Pecl, Gretta
Ward, Tim
Doubleday, Zoë
Clarke, Steven
Day, Jemery
Dixon, Cameron
Frusher, Stewart
Gibbs, Philip
Hobday, Alistair
Hutchinson, Neil
Jennings, Sarah
Jones, Keith
Li, Xiaoxu
Spooner, Daniel
Stoklosa, Richard

January 2011

[Extract] Blacklip and greenlip abalone form the basis of valuable fisheries in Tasmania, Victoria, ...

Modeling White Abalone Habitat in the Southern California Bight to Inform Future Outpanting Efforts

DiNardo, Jordan HALEY

January 2018

White abalone (Haliotis sorenseni) supported an intense commercial fishery in southern California du...

Effects of ocean acidification and warming on shallow subtidal temperate seaweed assemblages in eastern Tasmania, Australia : implications for the blacklip abalone (Haliotis rubra)

Britton, DD

January 2020

This study investigated how the combined stressors of ocean warming and acidification (reduced pH an...

Geographic range determinants of two commercially important marine molluscs

Brook, Barry W.
Mellin, Camille
Russell, Bayden D.
Connell, Sean D.
Fordham, Damien A.

January 2012

Aim We modelled the spatial abundance patterns of two abalone species (Haliotis rubra Donovan 1808 a...

Climate change disrupts core habitats of marine species

Hodapp, Dorothee
Roca, Irene T.
Fiorentino, Dario
Garilao, Cristina
Kaschner, Kristin
Kesner‐Reyes, Kathleen
Schneider, Birgit
Segschneider, Joachim
Kocsis, Ádám T.
Kiessling, Wolfgang
Brey, Thomas
Froese, Rainer

June 2023

Driven by climate change, marine biodiversity is undergoing a phase of rapid change that has proven ...

Results of abalone projections for Zones A and B

Brandão, Anabela
Butterworth, Doug S

April 2016

Projections for the spawning biomass of the abalone resource in Zones A and B for various future poa...

Box plots of the density of (a) greenlip and (b) blacklip abalone within their current distribution in South Australia, categorised according to average March Sea Surface Temperatures.

Bayden D. Russell (112904)
Sean D. Connell (112911)
Camille Mellin (112916)
Barry W. Brook (112923)
Owen W. Burnell (112931)
Damien A. Fordham (112936)

December 2012

Note the decrease in density of individuals for both species at 20°C and above.</p

Changing consumer strength in a changing climate

Mertens, Nicole Lee

January 2016

The intensity at which organisms interact is affected by abiotic conditions. Ocean warming and acidi...

Effects of ocean acidification on different life history stages of northern abalone (Haliotis kamtschatkana)

Crim, Ryan Nathanial

November 2010

Anthropogenic atmospheric CO₂ levels are rapidly increasing; however, much of this CO₂ (ca. 30%) dis...

Changes in potential fishing grounds for Haliotis rubra (blacklip abalone) and H. laevigata (greenlip abalone) in 2100 based on projections of August SST according to two climate change scenarios: a high CO2 concentration stabilising scenario (WRE750) and an alternative scenario that assumes strong mitigation (LEV1).

Bayden D. Russell (112904)
Sean D. Connell (112911)
Camille Mellin (112916)
Barry W. Brook (112923)
Owen W. Burnell (112931)
Damien A. Fordham (112936)

December 2012

Potential fishing grounds are defined based on a minimum abundance of 20 individuals/100 m2<...

Predicting the Distribution of Commercially Important Invertebrate Stocks under Future Climate

Bayden D. Russell
Sean D. Connell
Camille Mellin
Barry W. Brook
Owen W. Burnell
Damien A. Fordham

January 2012

The future management of commercially exploited species is challenging because techniques used to pr...

Population dynamics can be more important than physiological limits for determining range shifts under climate change

Fordham, Damien A.
Mellin, Camille
Russell, Bayden D.
Akçakaya, Reşit H.
Bradshaw, Corey J A
Aiello-Lammens, Matthew E.
Caley, Julian M.
Connell, Sean D.
Mayfield, Stephen
Shepherd, Scoresby A.
Brook, Barry W.

January 2013

Evidence is accumulating that species' responses to climate changes are best predicted by modelling ...

Predicting the distribution of commercially important invertebrate stocks under future climate

Russell, B.
Connell, S.
Mellin, C.
Brook, B.
Burnell, O.
Fordham, D.

January 2012

Extent: 9p.The future management of commercially exploited species is challenging because techniques...

Projecting Global Biodiversity Indicators under Future Development Scenarios

Visconti, Piero
Bakkenes, Michel
Baisero, Daniele
Brooks, Thomas
Butchart, Stuart H.M.
Joppa, Lucas
Alkemade, Rob
Marco, Moreno, Di
Santini, Luca
Hoffmann, Michael
Maiorano, Luigi
Pressey, Robert L.
Arponen, Anni
Boitani, Luigi
Reside, April E.
Vuuren, Detlef P., van
Rondinini, Carlo

January 2016

To address the ongoing global biodiversity crisis, governments have set strategic objectives and hav...

Projecting global biodiversity indicators under future development scenarios

Visconti, Piero
Bakkenes, Michel
Baisero, Daniele
Brooks, Thomas
Butchart, Stuart H. M.
Joppa, Lucas
Alkemade, Rob
Di Marco, Moreno
Santini, Luca
Hoffmann, Michael
Maiorano, Luigi
Pressey, Robert L.
Arponen, Anni
Boitani, Luigi
Reside, April E.
van Vuuren, Detlef P.
Rondinini, Carlo

January 2016

To address the ongoing global biodiversity crisis, governments have set strategic objectives and hav...

Risk Assessment of Impacts of Climate Change for Key Marine Species in South Eastern Australia. Part 2: species profiles

Pecl, Gretta
Ward, Tim
Doubleday, Zoë
Clarke, Steven
Day, Jemery
Dixon, Cameron
Frusher, Stewart
Gibbs, Philip
Hobday, Alistair
Hutchinson, Neil
Jennings, Sarah
Jones, Keith
Li, Xiaoxu
Spooner, Daniel
Stoklosa, Richard

January 2011

[Extract] Blacklip and greenlip abalone form the basis of valuable fisheries in Tasmania, Victoria, ...

Modeling White Abalone Habitat in the Southern California Bight to Inform Future Outpanting Efforts

DiNardo, Jordan HALEY

January 2018

White abalone (Haliotis sorenseni) supported an intense commercial fishery in southern California du...

Effects of ocean acidification and warming on shallow subtidal temperate seaweed assemblages in eastern Tasmania, Australia : implications for the blacklip abalone (Haliotis rubra)

Britton, DD

January 2020

This study investigated how the combined stressors of ocean warming and acidification (reduced pH an...

Geographic range determinants of two commercially important marine molluscs

Brook, Barry W.
Mellin, Camille
Russell, Bayden D.
Connell, Sean D.
Fordham, Damien A.

January 2012

Aim We modelled the spatial abundance patterns of two abalone species (Haliotis rubra Donovan 1808 a...

Climate change disrupts core habitats of marine species

Hodapp, Dorothee
Roca, Irene T.
Fiorentino, Dario
Garilao, Cristina
Kaschner, Kristin
Kesner‐Reyes, Kathleen
Schneider, Birgit
Segschneider, Joachim
Kocsis, Ádám T.
Kiessling, Wolfgang
Brey, Thomas
Froese, Rainer

June 2023

Driven by climate change, marine biodiversity is undergoing a phase of rapid change that has proven ...

Results of abalone projections for Zones A and B

Brandão, Anabela
Butterworth, Doug S

April 2016

Projections for the spawning biomass of the abalone resource in Zones A and B for various future poa...

Box plots of the density of (a) greenlip and (b) blacklip abalone within their current distribution in South Australia, categorised according to average March Sea Surface Temperatures.

Bayden D. Russell (112904)
Sean D. Connell (112911)
Camille Mellin (112916)
Barry W. Brook (112923)
Owen W. Burnell (112931)
Damien A. Fordham (112936)

December 2012

Note the decrease in density of individuals for both species at 20°C and above.</p

Changing consumer strength in a changing climate

Mertens, Nicole Lee

January 2016

The intensity at which organisms interact is affected by abiotic conditions. Ocean warming and acidi...

Effects of ocean acidification on different life history stages of northern abalone (Haliotis kamtschatkana)

Crim, Ryan Nathanial

November 2010

Anthropogenic atmospheric CO₂ levels are rapidly increasing; however, much of this CO₂ (ca. 30%) dis...

Abstract

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Abstract

Extracted data

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