Your search keyword '"Riegl, B"' showing total 8 results

1. Effect of seawater temperature, pH, and nutrients on the distribution and character of low abundance shallow water benthic foraminifera in the Galápagos.

Author

Humphreys AF, Halfar J, Ingle JC, Manzello D, Reymond CE, Westphal H, and Riegl B

Subjects

Chlorophyll A analysis, Cluster Analysis, Coral Reefs, Ecuador, El Nino-Southern Oscillation, Geologic Sediments chemistry, Hydrogen-Ion Concentration, Models, Statistical, Temperature, Foraminifera growth & development, Nutrients chemistry, Seawater chemistry

Abstract

In order to help predict the effects of anthropogenic stressors on shallow water carbonate environments, it is important to focus research on regions containing natural oceanographic gradients, particularly with respect to interactions between oceanography and ecologically sensitive carbonate producers. The Galápagos Archipelago, an island chain in the eastern equatorial Pacific, spans a natural nutrient, pH, and temperature gradient due to the interaction of several major ocean currents. Further, the region is heavily impacted by the El Niño-Southern Oscillation (ENSO) and the Galápagos exhibited widespread coral bleaching and degradation following the strong ENSO events of 1982-1983 and 1997-1998. These findings are coupled with reports of unusually low abundances of time-averaged benthic foraminiferal assemblages throughout the region. Foraminifera, shelled single-celled protists, are sensitive to environmental change and rapidly respond to alterations to their surrounding environment, making them ideal indicator species for the study of reef water quality and health. Here, statistical models and analyses were used to compare modern shallow water benthic foraminiferal assemblages from 19 samples spanning the Galápagos Archipelago to predominant oceanographic parameters at each collection site. Fisher α diversity indices, Ternary diagrams, Canonical Correspondence Analysis, regression tree analysis and FORAM-Index (FI; a single metric index for evaluating water quality associated with reef development) implied a combined impact from ENSO and upwelling from Equatorial Undercurrent (EUC) waters to primarily impact foraminiferal abundances and drive assemblage patterns throughout the archipelago. For instance, repeated ENSO temperature anomalies might be responsible for low foraminiferal density, while chronically high nutrients and low aragonite saturation and low pH-induced by EUC upwelling and La Niña anomalies-likely inhibited post-ENSO recovery, and caused foraminiferal assemblages to exhibit a heterotrophic dominance in the southern archipelago. What resulted are low FI values in the southern collection sites, indicating environments not conducive to endosymbiont development and/or recovery., Competing Interests: The authors have declared that no competing interests exist.

Published

2018

2. Water column productivity and temperature predict coral reef regeneration across the Indo-Pacific.

Author

Riegl B, Glynn PW, Wieters E, Purkis S, d'Angelo C, and Wiedenmann J

Subjects

Animals, Anthozoa classification, Anthozoa genetics, Chlorophyll genetics, Chlorophyll A, Ecosystem, Indian Ocean, Microsatellite Repeats, Oceanography, Pacific Ocean, Regeneration, Coral Reefs, Seawater, Temperature

Abstract

Predicted increases in seawater temperatures accelerate coral reef decline due to mortality by heat-driven coral bleaching. Alteration of the natural nutrient environment of reef corals reduces tolerance of corals to heat and light stress and thus will exacerbate impacts of global warming on reefs. Still, many reefs demonstrate remarkable regeneration from past stress events. This paper investigates the effects of sea surface temperature (SST) and water column productivity on recovery of coral reefs. In 71 Indo-Pacific sites, coral cover changes over the past 1-3 decades correlated negative-exponentially with mean SST, chlorophyll a, and SST rise. At six monitoring sites (Persian/Arabian Gulf, Red Sea, northern and southern Galápagos, Easter Island, Panama), over half of all corals were <31 years, implying that measured environmental variables indeed shaped populations and community. An Indo-Pacific-wide model suggests reefs in the northwest and central Indian Ocean, as well as the central west Pacific, are at highest risk of degradation, and those at high latitudes the least. The model pinpoints regions where coral reefs presently have the best chances for survival. However, reefs best buffered against temperature and nutrient effects are those that current studies suggest to be most at peril from future ocean acidification.

Published

2015

3. Crucial knowledge gaps in current understanding of climate change impacts on coral reef fishes.

Author

Wilson SK, Adjeroud M, Bellwood DR, Berumen ML, Booth D, Bozec YM, Chabanet P, Cheal A, Cinner J, Depczynski M, Feary DA, Gagliano M, Graham NA, Halford AR, Halpern BS, Harborne AR, Hoey AS, Holbrook SJ, Jones GP, Kulbiki M, Letourneur Y, De Loma TL, McClanahan T, McCormick MI, Meekan MG, Mumby PJ, Munday PL, Ohman MC, Pratchett MS, Riegl B, Sano M, Schmitt RJ, and Syms C

Subjects

Animals, Behavior, Animal physiology, Biodiversity, Ecosystem, Fish Diseases, Humans, Population Dynamics, Surveys and Questionnaires, Anthozoa physiology, Climate Change, Fishes physiology, Seawater

Abstract

Expert opinion was canvassed to identify crucial knowledge gaps in current understanding of climate change impacts on coral reef fishes. Scientists that had published three or more papers on the effects of climate and environmental factors on reef fishes were invited to submit five questions that, if addressed, would improve our understanding of climate change effects on coral reef fishes. Thirty-three scientists provided 155 questions, and 32 scientists scored these questions in terms of: (i) identifying a knowledge gap, (ii) achievability, (iii) applicability to a broad spectrum of species and reef habitats, and (iv) priority. Forty-two per cent of the questions related to habitat associations and community dynamics of fish, reflecting the established effects and immediate concern relating to climate-induced coral loss and habitat degradation. However, there were also questions on fish demographics, physiology, behaviour and management, all of which could be potentially affected by climate change. Irrespective of their individual expertise and background, scientists scored questions from different topics similarly, suggesting limited bias and recognition of a need for greater interdisciplinary and collaborative research. Presented here are the 53 highest-scoring unique questions. These questions should act as a guide for future research, providing a basis for better assessment and management of climate change impacts on coral reefs and associated fish communities.

Published

2010

4. The Gulf: a young sea in decline.

Author

Sheppard C, Al-Husiani M, Al-Jamali F, Al-Yamani F, Baldwin R, Bishop J, Benzoni F, Dutrieux E, Dulvy NK, Durvasula SR, Jones DA, Loughland R, Medio D, Nithyanandan M, Pilling GM, Polikarpov I, Price AR, Purkis S, Riegl B, Saburova M, Namin KS, Taylor O, Wilson S, and Zainal K

Subjects

Animals, Indian Ocean, Risk Assessment, United Arab Emirates, Climate Change, Ecosystem, Seawater chemistry, Seawater microbiology, Water Pollution adverse effects

Abstract

This review examines the substantial changes that have taken place in marine habitats and resources of the Gulf over the past decade. The habitats are especially interesting because of the naturally high levels of temperature and salinity stress they experience, which is important in a changing world climate. However, the extent of all natural habitats is changing and their condition deteriorating because of the rapid development of the region and, in some cases from severe, episodic warming episodes. Major impacts come from numerous industrial, infrastructure-based, and residential and tourism development activities, which together combine, synergistically in some cases, to cause the observed deterioration in most benthic habitats. Substantial sea bottom dredging for material and its deposition in shallow water to extend land or to form a basis for huge developments, directly removes large areas of shallow, productive habitat, though in some cases the most important effect is the accompanying sedimentation or changes to water flows and conditions. The large scale of the activities compared to the relatively shallow and small size of the water body is a particularly important issue. Important from the perspective of controlling damaging effects is the limited cross-border collaboration and even intra-country collaboration among government agencies and large projects. Along with the accumulative nature of impacts that occur, even where each project receives environmental assessment or attention, each is treated more or less alone, rarely in combination. However, their combination in such a small, biologically interacting sea exacerbates the overall deterioration. Very few similar areas exist which face such a high concentration of disturbance, and the prognosis for the Gulf continuing to provide abundant natural resources is poor., (Copyright 2009. Published by Elsevier Ltd.)

Published

2010

5. Coral reefs: threats and conservation in an era of global change.

Author

Riegl B, Bruckner A, Coles SL, Renaud P, and Dodge RE

Subjects

Animals, Anthozoa, Conservation of Natural Resources, Ecosystem, Fisheries, Marine Biology, Seawater

Abstract

Coral reefs are iconic, threatened ecosystems that have been in existence for approximately 500 million years, yet their continued ecological persistence seems doubtful at present. Anthropogenic modification of chemical and physical atmospheric dynamics that cause coral death by bleaching and newly emergent diseases due to increased heat and irradiation, as well as decline in calcification caused by ocean acidification due to increased CO(2), are the most important large-scale threats. On more local scales, overfishing and destructive fisheries, coastal construction, nutrient enrichment, increased runoff and sedimentation, and the introduction of nonindigenous invasive species have caused phase shifts away from corals. Already approximately 20% of the world's reefs are lost and approximately 26% are under imminent threat. Conservation science of coral reefs is well advanced, but its practical application has often been lagging. Societal priorites, economic pressures, and legal/administrative systems of many countries are more prone to destroy rather than conserve coral-reef ecosystems. Nevertheless, many examples of successful conservation exist from the national level to community-enforced local action. When effectively managed, protected areas have contributed to regeneration of coral reefs and stocks of associated marine resources. Local communities often support coral-reef conservation in order to raise income potential associated with tourism and/or improved resource levels. Coral reefs create an annual income in S-Florida alone of over $4 billion. Thus, no conflict between development, societal welfare, and coral-reef conservation needs to exist. Despite growing threats, it is not too late for decisive action to protect and save these economically and ecologically high-value ecosystems. Conservation science plays a critical role in designing effective strategies.

Published

2009

6. Assessing the accuracy of acoustic seabed classification for mapping coral reef environments in South Florida (Broward County, USA).

Author

Moyer RP, Riegl B, Banks K, and Dodge RE

Subjects

Animals, Atlantic Ocean, Biodiversity, Cluster Analysis, Environmental Monitoring methods, Florida, Geography, Image Enhancement, Population Density, Population Dynamics, Principal Component Analysis, Transducers, Acoustics, Anthozoa growth & development, Ecosystem, Environmental Monitoring standards, Seawater

Abstract

The Atlantic coast of Broward County, Florida (USA) is paralleled by a series of progressively deeper, shore-parallel coral reef communities. Two of these reef systems are drowned early Holocene coral reefs of 5 ky and 7 ky uncorrected radiocarbon age. Despite the case of access to these reefs, and their major contribution to the local economy, accurate benthic habitat maps of the area are not available. Ecological studies have shown that different benthic communities (i.e. communities composed of different biological taxa) exist along several spatial gradients on all reefs. Since these studies are limited by time and spatial extent, acoustic surveys with the QTCView V bottom classification system based on a 50 kHz transducer were used as an alternative method of producing habitat maps. From the acoustic data of a 3.1 km(2) survey area, spatial prediction maps were created for the area. These were compared with habitat maps interpreted from in situ data and Laser Airborne Depth Sounder (LADS) bathymetry, in order to ground-truth the remotely sensed data. An error matrix was used to quantitatively determine the accuracy of the acoustically derived spatial prediction model against the maps derived from the in situ and LADS data sets. Confusion analysis of 100 random points showed that the system was able to distinguish areas of reef from areas of rubble and sand with an overall accuracy of 61%. When asked to detect more subtle spatial differences, for example, those between distinct reef communities, the classification was only about 40% accurate. We discuss to what degree a synthesis of acoustic and in situ techniques can provide accurate habitat maps in coral reef environments, and conclude that acoustic methods were able to reflect the spatial extent and composition of at least three different biological communities.

Published

2005

7. Determination of the distribution of shallow-water seagrass and drift algae communities with acoustic seafloor discrimination.

Author

Riegl B, Moyer RP, Morris L, Virnstein R, and Dodge RE

Subjects

Calibration, Cluster Analysis, Environmental Monitoring standards, Florida, Geography, Image Enhancement, Population Density, Population Dynamics, Principal Component Analysis, Transducers, Water Movements, Acoustics, Ecosystem, Environmental Monitoring methods, Eukaryota growth & development, Seawater

Abstract

The spatial distribution of seagrass and algae communities can be difficult to determine in large, shallow lagoon systems where high turbidity prevents the use of optical methods like aerial photography or satellite imagery. Further complications can arise when algae are not permanently attached to the substratum and drift with tides and currents. A study using acoustic seafloor discrimination was conducted in the Indian River Lagoon (Florida, USA) to determine the extent of drift algae and seagrass. Acoustic surveys using the QTC View V system based on 50 and 200 kHz transducers were conducted near Sebastian Inlet. Results indicate that areas of seagrass can be identified, and are mixed with a high abundance of drift algae. Nearest-neighbor extrapolation was used to fill in spaces between survey lines and thus obtain spatially cohesive maps. These maps were then ground-truthed using data from towed video and compared using confusion matrices, The maps showed a high level of agreement (60%) with the actual distribution of algae, however some confusion existed between bare sand and algae as well as seagrass.

Published

2005

8. The Gulf: a young sea in decline

Author

Ron Loughland, Andrew R. G. Price, Graham M. Pilling, Khadija Zainal, Mohsen Al-Husiani, Samuel J. Purkis, Faiza Al-Yamani, Maria Saburova, Igor Polikarpov, Eric Dutrieux, Charles Sheppard, Francesca Benzoni, James M. Bishop, D.A. Jones, David Medio, Nicholas K. Dulvy, Rob Baldwin, Manickam Nithyanandan, Simon C. Wilson, F. Al-Jamali, Subba Rao V. Durvasula, Oliver Taylor, Kaveh Samimi Namin, Bernhard Riegl, Sheppard, C, Al-Husiani, M, Al-Jamali, F, Al-Yamani, F, Baldwin, R, Bishop, J, Benzoni, F, Dutrieux, E, Dulvy, N, Durvasula, S, Jones, D, Loughland, R, Medio, D, Nithyanandan, M, Pilling, G, Polikarpov, I, Price, A, Purkis, S, Riegl, B, Saburova, M, Namin, K, Taylor, O, Wilson, S, and Zainal, K

Subjects

Coral reefs, Persian Gulf, Climate Change, Fisheries, United Arab Emirates, Oil pollution, Sea gra, Aquatic Science, Development, Oceanography, Risk Assessment, Natural (archaeology), Deposition (geology), Fisherie, Climate stresse, Temperature rise, Mangroves, Animals, Seawater, Mangrove, Indian Ocean, Ecosystem, geography.geographical_feature_category, Ecology, Water Pollution, Marine habitats, Coral reef, Natural resource, Pollution, Sea grass, Gulf War, Fishery, Arabian Gulf, Waves and shallow water, Geography, Disturbance (ecology), Habitat, Climate stresses, BIO/07 - ECOLOGIA, Sedimentation, BIO/05 - ZOOLOGIA

Abstract

This review examines the substantial changes that have taken place in marine habitats and resources of the Gulf over the past decade. The habitats are especially interesting because of the naturally high levels of temperature and salinity stress they experience, which is important in a changing world climate. However, the extent of all natural habitats is changing and their condition deteriorating because of the rapid development of the region and, in some cases from severe, episodic warming episodes. Major impacts come from numerous industrial, infrastructure-based, and residential and tourism development activities, which together combine, synergistically in some cases, to cause the observed deterioration in most benthic habitats. Substantial sea bottom dredging for material and its deposition in shallow water to extend land or to form a basis for huge developments, directly removes large areas of shallow, productive habitat, though in some cases the most important effect is the accompanying sedimentation or changes to water flows and conditions. The large scale of the activities compared to the relatively shallow and small size of the water body is a particularly important issue. Important from the perspective of controlling damaging effects is the limited cross-border collaboration and even intra-country collaboration among government agencies and large projects. Along with the accumulative nature of impacts that occur, even where each project receives environmental assessment or attention, each is treated more or less alone, rarely in combination. However, their combination in such a small, biologically interacting sea exacerbates the overall deterioration. Very few similar areas exist which face such a high concentration of disturbance, and the prognosis for the Gulf continuing to provide abundant natural resources is poor. © 2009.

Published

2009