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1.
This paper evaluates the global economic damage arising from the effects of climate change and associated carbon dioxide concentrations on the loss of coral reefs. We do this by first estimating the effects of sea surface temperature and carbon dioxide concentrations on coral cover. We develop a statistical relationship between coral coverage and sea surface temperature that indicates that the effects are dependent on the temperature range. For example, we find that increasing sea surface temperature causes coral coverage to decrease when sea surface temperature is higher than 26.85 °C, with the estimated reduction being 2.3% when sea surface temperature increases by 1%. In addition, we find that a 1% carbon dioxide increase induces a 0.6% reduction in global coral coverage. We also estimate the resultant loss in economic value based on a meta-analysis of the recreational and commercial value of reef coverage and a crude proportional approach for other value factors. The meta-analysis shows that the coral reef value decreases by 3.8% when coral cover falls by 1%. By combining these two steps we find that the lost value in terms of the global coral reef value under climate change scenarios ranges from US$3.95 to US$23.78 billion annually. 相似文献
2.
Climatic change threatens the future of coral reefs in the Caribbean and the important ecosystem services they provide. We used a simulation model [Combo (??COral Mortality and Bleaching Output??)] to estimate future coral cover in the part of the eastern Caribbean impacted by a massive coral bleaching event in 2005. Combo calculates impacts of future climate change on coral reefs by combining impacts from long-term changes in average sea surface temperature (SST) and ocean acidification with impacts from episodic high temperature mortality (bleaching) events. We used mortality and heat dose data from the 2005 bleaching event to select historic temperature datasets, to use as a baseline for running Combo under different future climate scenarios and sets of assumptions. Results suggest a bleak future for coral reefs in the eastern Caribbean. For three different emissions scenarios from the Intergovernmental Panel on Climate Change (IPCC; B1, A1B, and A1FI), coral cover on most Caribbean reefs is projected to drop below 5% by the year 2035, if future mortality rates are equivalent to some of those observed in the 2005 event (50%). For a scenario where corals gain an additional 1?C1.5°C of heat tolerance through a shift in the algae that live in the coral tissue, coral cover above 5% is prolonged until 2065. Additional impacts such as storms or anthropogenic damage could result in declines in coral cover even faster than those projected here. These results suggest the need to identify and preserve the locations that are likely to have a higher resiliency to bleaching to save as many remnant populations of corals as possible in the face of projected wide-spread coral loss. 相似文献
3.
Hazel A. Oxenford Ramon Roach Angelique Brathwaite Leonard Nurse Renata Goodridge Fabian Hinds Kim Baldwin Christine Finney 《Climatic change》2008,87(3-4):435-449
In late summer 2005 a mass coral bleaching event occurred in the Caribbean. Here we quantify coral bleaching in Barbados at
six sites on the island’s sheltered west and exposed southwest coasts, including nearshore fringing and patch reefs and offshore
bank reef habitats. Onset of coral bleaching occurred in late August 2005 and persisted for many months after temperatures
cooled. All reef habitats and virtually all coral taxa were affected, with an average of 70.6% of all colonies bleaching.
Nearshore reefs (<10 m depth) were affected more severely than offshore deeper reefs (>15 m) with an average of 80.6% of all
coral colonies bleaching compared with 60.5% on the latter. Inter-species variation in susceptibility to bleaching was marked
with >90% of colonies bleaching in some species whilst <10% bleached in others. Follow-up surveys revealed low coral mortality,
with an overall mean of 3.8% partial colony death across all species and reefs by February 2006. However, bleached condition
has persisted with a mean of 37.7% of all coral colonies still bleached after 5 1/2 months, indicating that loss of live coral
is likely to continue for some time. This event represents the most severe bleaching episode ever witnessed on Barbados’ reefs
and emphasises the vulnerability of small island states, with a high reliance on healthy coral reef ecosystem services, to
elevated sea water temperatures associated with climate variability and global climate change. 相似文献
4.
The article proposes the method of climatic forecast of the occurrence frequency of synoptic conditions causing severe hydrometeorological events as well as severe events that are genetically related to them, in particular, storm wind waves. The choice of sea level pressure field as an indicator of atmospheric conditions of storm waves is substantiated. The algorithm for the method implementation is developed. It includes the processing of observational/reanalysis data; wind wave simulation; the systematization of synoptic conditions that accompany storm waves under the modern climate; the assessment of the ability of climate models of atmospheric and oceanic general circulation to simulate correctly the frequency of the revealed types of synoptic conditions for the modern climate; and the forecast of the frequency of these types for the possible scenarios of the future climate. 相似文献
5.
Abstract Changes to the Beaufort Sea shoreline occur due to the impact of storms and rising relative sea level. During the open‐water season (June to October), storm winds predominantly from the north‐west generate waves and storm surges which are effective in eroding thawing ice‐rich cliffs and causing overwash of gravel beaches. Climate change is expected to be enhanced in Arctic regions relative to the global mean and include accelerated sea‐level rise, more frequent extreme storm winds, more frequent and extreme storm surge flooding, decreased sea‐ice extent, more frequent and higher waves, and increased temperatures. We investigate historical records of wind speeds and directions, water levels, sea‐ice extent and temperature to identify variability in past forcing and use the Canadian Global Coupled Model ensembles 1 and 2 (CGCM1 and CGCM2) climate modelling results to develop a scenario forcing future change of Beaufort Sea shorelines. This scenario and future return periods of peak storm wind speeds and water levels likely indicate increased forcing of coastal change during the next century resulting in increased rates of cliff erosion and beach migration, and more extreme flooding. 相似文献
6.
Vulnerability of coastal communities to key impacts of climate change on coral reef fisheries 总被引:1,自引:0,他引:1
J.E. Cinner T.R. McClanahan N.A.J. Graham T.M. Daw J. Maina S.M. Stead A. Wamukota K. Brown Ö. Bodin 《Global Environmental Change》2012,22(1):12-20
Coral reefs support the livelihood of millions of people especially those engaged in marine fisheries activities. Coral reefs are highly vulnerable to climate change induced stresses that have led to substantial coral mortality over large spatial scales. Such climate change impacts have the potential to lead to declines in marine fish production and compromise the livelihoods of fisheries dependent communities. Yet few studies have examined social vulnerability in the context of changes specific to coral reef ecosystems. In this paper, we examine three dimensions of vulnerability (exposure, sensitivity, and adaptive capacity) of 29 coastal communities across five western Indian Ocean countries to the impacts of coral bleaching on fishery returns. A key contribution is the development of a novel, network-based approach to examining sensitivity to changes in the fishery that incorporates linkages between fishery and non-fishery occupations. We find that key sources of vulnerability differ considerably within and between the five countries. Our approach allows the visualization of how these dimensions of vulnerability differ from site to site, providing important insights into the types of nuanced policy interventions that may help to reduce vulnerability at a specific location. To complement this, we develop framework of policy actions thought to reduce different aspects of vulnerability at varying spatial and temporal scales. Although our results are specific to reef fisheries impacts from coral bleaching, this approach provides a framework for other types of threats and different social-ecological systems more broadly. 相似文献
7.
Predicting the response of hard and soft rock coasts to changes in sea level and wave height 总被引:1,自引:0,他引:1
Alan S. Trenhaile 《Climatic change》2011,109(3-4):599-615
A mathematical model was used to predict the effect of climate change on soft and hard rock coasts in a 2 m tidal environment. Erosional equations represented the effect of wave impact and bottom generated shear stresses in the intertidal and subtidal zones. Model runs were made for: 2900 years with constant sea level; a further 100 years, representing the last century, with either constant or slow sea level rise (0.2 m per century); and another 100 years, representing the present century, with either slow or fast (1 m per century) sea level rise, and with either no change in storm frequency or with a 10% increase in the frequency of the highest waves. The results suggest that rising sea level will trigger faster rates of cliff recession, whereas increased storm wave frequency may have only a fairly minor effect on erosional efficacy. Model runs were used to derive a series of predictive equations relating cliff recession during the present and last centuries. 相似文献
8.
The twin crisis of biodiversity loss and climate change make it urgent to find ways of restoring natural ecosystems, including coral reefs. Methods for coral reef restoration are rapidly advancing, bringing with them a range of potential risks and opportunities. Attention to public engagement in the governance of such activities therefore becomes critical. This research examines public attitudinal and behavioral engagement in ‘traditional’ coral restoration projects in the Great Barrier Reef World Heritage Area (i.e. coral gardening at relatively small scales). Grounded on dual-process decision-making and trust theories, rational factors (i.e., perceived benefits), emotions (i.e., hope and guilt) and trust are conceptually three main determinants of public engagement in ecological restoration. We used a mixed-method approach, including 63 individual interviews and a follow-up survey with 1585 participants, to clarify the roles of these psychological factors in motivating public engagement in current coral restoration projects. Trust was found to be the most important factor influencing public acceptance (i.e., attitudinal engagement) of coral restoration, while the emotion of guilt was the most influential factor affecting public support (i.e., behavioral engagement). Therefore, when advocating for conservation projects, different campaigns could be implemented with: (1) positive messages of hope and trust to gain public acceptance for government-funded restoration projects and (2) messages highlighting individual responsibility to motivate behavioral support to scale up restoration projects. 相似文献
9.
Scott Andrew Wooldridge Terence J. Done Colette R. Thomas Iain I. Gordon Paul A. Marshall Roger N. Jones 《Climatic change》2012,112(3-4):945-961
The threats of wide-scale coral bleaching and reef demise associated with anthropogenic (global) climate change are widely known. Less well considered is the contributing role of conditions local to the reef, in particular reef water quality, in co-determining the physiological tolerance of corals to increasing sea temperatures and declining pH. Here, the modelled benefit of reduced exposure to dissolved inorganic nitrogen (DIN) in terrestrial runoff, which raises the thermal tolerance of coastal coral communities on the central Great Barrier Reef (Australia), is considered alongside alternative future warming scenarios. The simulations highlight that an 80% reduction in DIN ‘buys’ an additional ~50–60?years of reef-building capacity for No Mitigation (‘business-as-usual’) bleaching projections. Moreover, the integrated management benefits provided by: (i) local reductions of ~50% in DIN contained in river loads, and (ii) global stabilisation of atmospheric CO2 below 450?ppm can help ensure the persistence of hard-coral-dominated reefscapes beyond 2100. The simulations reinforce the message that beyond the global imperative to mitigate future atmospheric CO2 emissions there still remains the need for effective local management actions that enhance the resistance and resilience of coral reef communities to the impacts of climate change. 相似文献
10.
Assessing climate change impacts,sea level rise and storm surge risk in port cities: a case study on Copenhagen 总被引:8,自引:1,他引:7
Stéphane Hallegatte Nicola Ranger Olivier Mestre Patrice Dumas Jan Corfee-Morlot Celine Herweijer Robert Muir Wood 《Climatic change》2011,104(1):113-137
This study illustrates a methodology to assess the economic impacts of climate change at a city scale and benefits of adaptation,
taking the case of sea level rise and storm surge risk in the city of Copenhagen, capital of Denmark. The approach is a simplified
catastrophe risk assessment, to calculate the direct costs of storm surges under scenarios of sea level rise, coupled to an
economic input–output (IO) model. The output is a risk assessment of the direct and indirect economic impacts of storm surge
under climate change, including, for example, production and job losses and reconstruction duration, and the benefits of investment
in upgraded sea defences. The simplified catastrophe risk assessment entails a statistical analysis of storm surge characteristics,
geographical-information analysis of population and asset exposure combined with aggregated vulnerability information. For
the city of Copenhagen, it is found that in absence of adaptation, sea level rise would significantly increase flood risks.
Results call for the introduction of adaptation in long-term urban planning, as one part of a comprehensive strategy to manage
the implications of climate change in the city. Mitigation policies can also aid adaptation by limiting the pace of future
sea level rise. 相似文献
11.
Denamiel Cléa Pranić Petra Quentin Florent Mihanović Hrvoje Vilibić Ivica 《Climate Dynamics》2020,55(9-10):2483-2509
This numerical work aims to better understand the behavior of extreme Adriatic Sea wave storms under projected climate change. In this spirit, 36 characteristic events—22 bora and 14 sirocco storms occurring between 1979 and 2019, were selected and ran in evaluation mode in order to estimate the skill of the kilometer-scale Adriatic Sea and Coast (AdriSC) modelling suite used in this study and to provide baseline conditions for the climate change impact. The pseudo-global warming (PGW) methodology—which imposes an additional climatological change to the forcing used in the evaluation simulations, was implemented, for the very first time, for a coupled ocean–wave–atmosphere model and used to assess the behavior of the selected storms under Representative Concentration Pathway (RCP) 4.5 and RCP 8.5 greenhouse gas projections. The findings of this experiment are that, on the one hand, the AdriSC model is found capable of reproducing both the Adriatic waves associated with the 36 storms and the northern Adriatic surges occurring during the sirocco events and, on the other hand, the significant wave heights and peak periods are likely to decrease during all future extreme events but most particularly during bora storms. The northern Adriatic storm surges are in consequence also likely to decrease during sirocco events. As it was previously demonstrated that the Adriatic extreme wind-wave events are likely to be less intense in a future warmer climate, this study also proved the validity of applying the PGW methodology to coupled ocean–wave–atmosphere models at the coastal and nearshore scales.
相似文献12.
The UN Framework Convention on Climate Change calls for the avoidance of “dangerous anthropogenic interference with the climate
system”. Among the many plausible choices, dangerous interference with the climate system may be interpreted as anthropogenic
radiative forcing causing distinct and widespread climate change impacts such as a widespread demise of coral reefs or a disintegration
of the West Antarctic ice sheet. The geological record and numerical models suggest that limiting global warming below critical
temperature thresholds significantly reduces the likelihood of these eventualities. Here we analyze economically optimal policies
that may ensure this risk-reduction. Reducing the risk of a widespread coral reef demise implies drastic reductions in greenhouse
gas emissions within decades. Virtually unchecked greenhouse gas emissions to date (combined with the inertia of the coupled
natural and human systems) may have already committed future societies to a widespread demise of coral reefs. Policies to
reduce the risk of a West Antarctic ice sheet disintegration allow for a smoother decarbonization of the economy within a
century and may well increase consumption in the long run. 相似文献
13.
IPCC《气候变化中的海洋和冰冻圈特别报告》评估了全球和区域海洋的气候变化及其对生态系统和人类社会的影响、风险及应对措施。结果表明,近几十年来,海洋的物理和化学性质发生了明显变化,如升温、酸化、脱氧和营养盐减少等气候致灾因子(事件)的危害(险)性不断加剧(高信度)。这种变化正在影响从上层到底层的海洋生态系统和人类社会的可持续发展,如海洋初级生产力的下降、物种地理分布的变迁、渔业资源潜在渔获量的下降以及食品供应的减少(高信度)。在气候变化与非气候人为干扰因素的综合影响下,随着温室气体排放的增加(从RCP2.6到RCP8.5情景),到21世纪末,几乎所有类型的海洋和海岸带生态系统将处于高或很高的风险水平(高信度);其中,暖水珊瑚礁生态系统尤其严重,如果全球升温1.5℃和2℃,将分别消失70%~90%和99%以上(很高信度)。然而,当前多种减缓气候变化的海洋应对措施的作用较小,有的可能带来生态危险,而许多降低气候风险的海洋适应措施的作用也很有限,特别是在RCP8.5情景下的作用更小;未来海洋生态系统的风险水平在RCP2.6情景下均低于RCP8.5情景(很高信度)。因此,这凸显了减缓气候变化尤其是减缓和适应气候变化综合治理的重要性。 相似文献
14.
使用UVic地球系统气候模式,在4种CO2典型浓度路径(RCP2.6、RCP4.5、RCP6.0、RCP8.5)情景下,对1800-2300年海洋环境变化及珊瑚礁周围海水环境进行模拟分析。结果表明,海洋将继续吸收大量碳,从RCP2.6到RCP8.5情景,海表温度将在21世纪末上升1.1~2.8 K,pH值将下降0.14~0.42,[CO32- ]将减少20%~51%。珊瑚礁周围环境的文石饱和度(W)下降迅速。在工业革命前,99%的浅水珊瑚处于W>3.5的外环境中,87%的深水珊瑚处于W>1的海域。在21世纪末,除了RCP2.6,其他情景下均仅剩不到1%的浅水珊瑚还能被W>3.5的水域包围。在RCP8.5情景下,21世纪末全球平均文石饱和线将从工业革命前的1138 m水深提升到308 m水深,使得73%的冷水珊瑚暴露在不饱和水域,而2300年这一比例将超过95%。 相似文献
15.
Abstract In this paper, an overview of storm waves associated with intense weather systems affecting the east and west coasts of Canada is presented. The paper presents the wave climatology of the east and west coasts in terms of the 100‐year significant and maximum wave heights and further analyses the directional distribution of wave heights at selected locations in the Canadian east and west coasts offshore. The paper also analyses wave hazards associated with storm waves in the Beaufort Sea as well as the Canadian Great Lakes region. A section on ocean wave modelling provides a brief history of the development of ocean surface wave models and its present status. The paper further considers the impact of climate change scenarios on wave hazards and finally examines mitigation measures in terms of wave products available from operational wave models and related wave climatology. 相似文献
16.
Exploring high-end scenarios for local sea level rise to develop flood protection strategies for a low-lying delta—the Netherlands as an example 总被引:4,自引:1,他引:3
Caroline A. Katsman A. Sterl J. J. Beersma H. W. van den Brink J. A. Church W. Hazeleger R. E. Kopp D. Kroon J. Kwadijk R. Lammersen J. Lowe M. Oppenheimer H. -P. Plag J. Ridley H. von Storch D. G. Vaughan P. Vellinga L. L. A. Vermeersen R. S. W. van de Wal R. Weisse 《Climatic change》2011,109(3-4):617-645
Sea level rise, especially combined with possible changes in storm surges and increased river discharge resulting from climate change, poses a major threat in low-lying river deltas. In this study we focus on a specific example of such a delta: the Netherlands. To evaluate whether the country’s flood protection strategy is capable of coping with future climate conditions, an assessment of low-probability/high-impact scenarios is conducted, focusing mainly on sea level rise. We develop a plausible high-end scenario of 0.55 to 1.15 m global mean sea level rise, and 0.40 to 1.05 m rise on the coast of the Netherlands by 2100 (excluding land subsidence), and more than three times these local values by 2200. Together with projections for changes in storm surge height and peak river discharge, these scenarios depict a complex, enhanced flood risk for the Dutch delta. 相似文献
17.
This study presents an assessment of the potential impacts of sea level rise on the New Jersey, USA coastal region. We produce
two projections of sea level rise for the New Jersey coast over the next century and apply them to a digital elevation model
to illustrate the extent to which coastal areas are susceptible to permanent inundation and episodic flooding due to storm
events. We estimate future coastline displacement and its consequences based on direct inundation only, which provides a lower
bound on total coastline displacement. The objective of this study is to illustrate methodologies that may prove useful to
policy makers despite the large uncertainties inherent in analysis of local impacts of climate and sea level change. Our findings
suggest that approximately 1% to 3% of the land area of New Jersey would be permanently inundated over the next century and
coastal storms would temporarily flood low-lying areas up to 20 times more frequently. Thus, absent human adaptation, by 2100
New Jersey would experience substantial land loss and alteration of the coastal zone, causing widespread impacts on coastal
development and ecosystems. Given the results, we identify future research needs and suggest that an important next step would
be for policy makers to explore potential adaptation strategies. 相似文献
18.
理想海域中台风引起的潮、流及波的分析 I 开阔海域的情况 总被引:1,自引:0,他引:1
采用理论分析与数值计算相结合的方法研究了理想开阔海域中的台风暴潮模型,讨论了开阔海域中移行台风下的海洋响应。分析表明,在开阔的浅海域,台风下的海洋运动以地转流为主,同时又激发出振幅较小的重力惯性流。重力惯性波是由于台风强度或移速的突然变化引起的,其波速通常大于台风移速。台风气压场造成海面升高且基本符合“静压效应”,但产生的正压流场非常微弱。伴随强风的气旋性风场造成的海面下降在台风经过之后可以维持很长时间,从而在台风后面形成一个长达几百公里的尾迹。而台风风应力和气压梯度力的总效果是在台风正前方造成海面上升,正后方造成海面下降。 相似文献
19.
A brief account of our studies on the hurricane forecast problem is presented here. This covers recent prediction results from the Florida State University (FSU) regional and global numerical weather prediction models. The re-gions covered are the Indian and the Pacific Oceans. The life cycle of the onset vortex (a hurricane) of the summer monsoon, typhoons over the western Pacific Ocean and tropical cyclones over the Bay of Bengal (Andhra Pradesh and the Bangladesh storms) are covered here. The essential elements in the storm formaton are the strong horizontal shear in the cyclogenetic areas, a lack of vertical shear and warn sea surface temperatures. The storm motion has a steering component largely described by the advection of vorticity by a vertically averaged layer mean wind, the recurvature of a storm appears to invoke physical processes via the advection of divergence by the divergent part of the wind especially in the outflow layers of the storm. Very high resolution global models seem to be able to handle the motion and structure during the entire life of typhoons quite reasonably. The scope for better diagnosis of the storms life cycle appears very promising in view of the realistic simulation of the life cycle. 相似文献
20.
理想海域中台风引起的潮、流及波的分析 Ⅱ.海岸及陆架的影响 总被引:2,自引:0,他引:2
采用理想的大陆架地形和台风模型计算了不同方向登陆的台风所激发的海洋响应。结果表明,岸边的潮位变化主要是由于台风引起的强迫振动造成的。而对于登陆型台风来说,在远离台风路径的地方,潮位的变化则是由于边缘波效应。对地平直海岸和二维大陆架,自由边缘波的振幅远小于强迫波的振幅。平行海岸移行台风在岸边产生随台风一起移动的强制波,其中当台风沿着与Kelvin波相同的方向移行时,岸边有陆架波产生,反之则没有陆架波。此外,还讨论了与风暴潮相关的近岸环流。 相似文献