Andrew H Baird

Publications (7)41.8 Total impact

• Article: Effects of delayed settlement on post-settlement growth and survival of scleractinian coral larvae.

  Erin M Graham, Andrew H Baird, Bette L Willis, Sean R Connolly
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  ABSTRACT: Demographic connectivity requires both the dispersal of individuals between sub-populations, and their subsequent contribution to population dynamics. For planktonic, non-feeding marine larvae, the capacity to delay settlement enables greater dispersal distances, but the energetic cost of delayed settlement has been shown to adversely impact post-settlement fitness in several taxa. Here, we assess whether delayed settlement influences mortality rates or growth rates for the first 6 weeks following settlement of the scleractinian coral, Acropora tenuis. Coral larvae that were settled at 2, 4, and 6 weeks after spawning, and then deployed in the field, showed negligible effects of delayed settlement on post-settlement survival and time to initial budding for colony formation. Between-cohort differences in budding rate appeared to be explained by temporal variation in the post-settlement acquisition of zooxanthellae. The potential for coral larvae to remain in the pelagic zone for increased periods of time with little to no effect on post-settlement survival and growth suggests that the capacity for delayed settlement is likely to have meaningful demographic consequences for broadcast-spawning reef-building corals, and that the predicted trade-off between delayed settlement and post-settlement fitness is less applicable to reef-building scleractinian corals than other taxa with non-feeding larvae.
  Oecologia 03/2013; · 3.41 Impact Factor
• Source

  Available from: Stuart J Campbell

  Article: Weak compliance undermines the success of no-take zones in a large government-controlled marine protected area.

  Stuart J Campbell, Andrew S Hoey, Jeffrey Maynard, Tasrif Kartawijaya, Joshua Cinner, Nicholas A J Graham, Andrew H Baird
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  ABSTRACT: The effectiveness of marine protected areas depends largely on whether people comply with the rules. We quantified temporal changes in benthic composition, reef fish biomass, and fishing effort among marine park zones (including no-take areas) to assess levels of compliance following the 2005 rezoning of the government-controlled Karimunjawa National Park (KNP), Indonesia. Four years after the rezoning awareness of fishing regulations was high amongst local fishers, ranging from 79.5±7.9 (SE) % for spatial restrictions to 97.7±1.2% for bans on the use of poisons. Despite this high awareness and strong compliance with gear restrictions, compliance with spatial restrictions was weak. In the four years following the rezoning reef fish biomass declined across all zones within KNP, with >50% reduction within the no-take Core and Protection Zones. These declines were primarily driven by decreases in the biomass of groups targeted by local fishers; planktivores, herbivores, piscivores, and invertivores. These declines in fish biomass were not driven by changes in habitat quality; coral cover increased in all zones, possibly as a result of a shift in fishing gears from those which can damage reefs (i.e., nets) to those which cause little direct damage (i.e., handlines and spears). Direct observations of fishing activities in 2009 revealed there was limited variation in fishing effort between zones in which fishing was allowed or prohibited. The apparent willingness of the KNP communities to comply with gear restrictions, but not spatial restrictions is difficult to explain and highlights the complexities of the social and economic dynamics that influence the ecological success of marine protected areas. Clearly the increased and high awareness of fishery restrictions following the rezoning is a positive step. The challenge now is to understand and foster the conditions that may facilitate compliance with spatial restrictions within KNP and marine parks worldwide.
  PLoS ONE 01/2012; 7(11):e50074. · 4.09 Impact Factor
• Source

  Available from: jcu.edu.au

  Article: Estimating dispersal potential for marine larvae: dynamic models applied to scleractinian corals.

  Sean R Connolly, Andrew H Baird
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  ABSTRACT: Dispersal influences ecological dynamics, evolution, biogeography, and biodiversity conservation, but models of larval dispersal in marine organisms make simplifying assumptions that are likely to approximate poorly the temporal dynamics of larval survival and capacity for settlement. In particular, larval mortality rates are typically assumed to be constant throughout larval life; and all larvae are frequently assumed to acquire and lose competence at the same time. To improve upon these assumptions, we here develop simple models of dispersal potential that incorporate rates of mortality, and acquisition and loss of settlement competence. We fit these models to empirical competence and survival data for five scleractinian coral species, to test the models' ability to characterize empirical survival and competence patterns, and to estimate the dispersal potential implied by those patterns. The models fit the data well, incorporating qualitative features of competence and survival that traditional approaches to modeling dispersal do not, with important implications for dispersal potential. Most notably, there was high within-cohort variation in the duration of the competent period in all species, and this variation increases both self-recruitment and long-distance dispersal compared with models assuming a fixed competent period. These findings help to explain the seeming paradox of high genetic population structure, coupled with large geographic range size, observed in many coral species. More broadly, our approach offers a way to parsimoniously account for variation in competence dynamics in dispersal models, a phenomenon that our results suggest has important effects on patterns of connectivity in marine metapopulations.
  Ecology 12/2010; 91(12):3572-83. · 4.85 Impact Factor
• Article: Adaptive Management of the Great Barrier Reef and the Grand Canyon World Heritage Areas

  Terence P. Hughes, Lance H. Gunderson, Carl Folke, Andrew H. Baird, David Bellwood, Fikret Berkes, Beatrice Crona, Ariella Helfgott, Heather Leslie, Jon Norberg, [......], Max Troell, Brian Walker, James Wilson, Boris Worm, span> Climate Change Synthesis Report, PubMed, span> Ecology Society, span, span>. Representative areas program, CSA
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  ABSTRACT: Conventional perceptions of the interactions between people and their environment are rapidly transforming. Old paradigms that view humans as separate from nature, natural resources as inexhaustible or endlessly substitutable, and the world as stable, predictable, and in balance are no longer tenable. New conceptual frameworks are rapidly emerging based on an adaptive approach that focuses on learning and flexible management in a dynamic social-ecological landscape. Using two iconic World Heritage Areas as case studies (the Great Barrier Reef and the Grand Canyon) we outline how an improved integration of the scientific and social aspects of natural resource management can guide the evolution of multiscale systems of governance that confront and cope with uncertainty, risk, and change in an increasingly human-dominated world.
  AMBIO A Journal of the Human Environment 01/2009; · 2.03 Impact Factor
• Source

  Available from: Ranjeet Bhagooli

  Article: Coral bleaching: the role of the host.

  Andrew H Baird, Ranjeet Bhagooli, Peter J Ralph, Shunichi Takahashi
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  ABSTRACT: Coral bleaching caused by global warming is one of the major threats to coral reefs. Very recently, research has focused on the possibility of corals switching symbionts as a means of adjusting to accelerating increases in sea surface temperature. Although symbionts are clearly of fundamental importance, many aspects of coral bleaching cannot be readily explained by differences in symbionts among coral species. Here we outline several potential mechanisms by which the host might influence the bleaching response, and conclude that predicting the fate of corals in response to climate change requires both members of the symbiosis to be considered equally.
  Trends in Ecology & Evolution 12/2008; 24(1):16-20. · 15.75 Impact Factor
• Source

  Available from: Ariella Helfgott

  Article: Adaptive management of the Great Barrier Reef and the Grand Canyon world heritage areas.

  Terence P Hughes, Lance H Gunderson, Carl Folke, Andrew H Baird, David Bellwood, Fikret Berkes, Beatrice Crona, Ariella Helfgott, Heather Leslie, Jon Norberg, [......], Per Olsson, Henrik Osterblom, Marten Scheffer, Heidi Schuttenberg, Robert S Steneck, Maria Tengö, Max Troell, Brian Walker, James Wilson, Boris Worm
  [show abstract] [hide abstract]
  ABSTRACT: Conventional perceptions of the interactions between people and their environment are rapidly transforming. Old paradigms that view humans as separate from nature, natural resources as inexhaustible or endlessly substitutable, and the world as stable, predictable, and in balance are no longer tenable. New conceptual frameworks are rapidly emerging based on an adaptive approach that focuses on learning and flexible management in a dynamic social-ecological landscape. Using two iconic World Heritage Areas as case studies (the Great Barrier Reef and the Grand Canyon) we outline how an improved integration of the scientific and social aspects of natural resource management can guide the evolution of multiscale systems of governance that confront and cope with uncertainty, risk, and change in an increasingly human-dominated world.
  AMBIO A Journal of the Human Environment 12/2007; 36(7):586-92. · 2.03 Impact Factor
• Source

  Available from: Morgan S Pratchett

  Article: Acehnese reefs in the wake of the Asian tsunami.

  Andrew H Baird, Stuart J Campbell, Aji W Anggoro, Rizya L Ardiwijaya, Nur Fadli, Yudi Herdiana, Tasrif Kartawijaya, Dodent Mahyiddin, Ahmad Mukminin, Shinta T Pardede, Morgan S Pratchett, Edi Rudi, Achis M Siregar
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  ABSTRACT: The Sumatra-Andanaman tsunami was one of the greatest natural disasters in recorded human history. Here, we show that on the northwest coast of Aceh, Indonesia, where the tsunami was most ferocious, the damage to corals, although occasionally spectacular, was surprisingly limited. We detected no change in shallow coral assemblages between March 2003 and March 2005, with the exception of one site smothered by sediment. Direct tsunami damage was dependent on habitat and largely restricted to corals growing in unconsolidated substrata, a feature unique to tsunami disturbance. Reef condition, however, varied widely within the region and was clearly correlated with human impacts prior to the tsunami. Where fishing has been controlled, coral cover was high. In contrast, reefs exposed to destructive fishing had low coral cover and high algal cover, a phase shift the tsunami may exacerbate with an influx of sediments and nutrients. Healthy reefs did not mitigate the damage on land. Inundation distance was largely determined by wave height and coastal topography. We conclude that although chronic human misuse has been much more destructive to reefs in Aceh than this rare natural disturbance, human modification of the reef did not contribute to the magnitude of damage on land.
  Current Biology 12/2005; 15(21):1926-30. · 9.65 Impact Factor