Your search keyword '"Karger, F."' showing total 13 results

1. North Atlantic Ocean

Author

Bode, A., Bange, Hermann W., Boersma, Maarten, Bresnan, E., Cook, K., Goffart, A., Isensee, K., Lomas, M. W., Mozetic, P., Muller-Karger, F. E., Lorenzoni, L., O'Brien, T. D., Plourde, S., Valdes, L., O'Brian, T. D., Lorenzoni, L., Isensee, K., and Valdes, L.

Published

2017

2. North Atlantic Ocean

Author

Bode, A. (Antonio), Bange, H.W., Boersma, M., Bresnan, E. (Eileen), Cook, K. (Kathryn), Goffart, A., Isensee, K., Lomas, M.W., Mozetič, P. (Patricija), Muller-Karger, F. (Frank), Lorenzoni, L., O'Brien, T.D., Plourde, S., and Valdés-Santurio, L. (Luis)

Subjects

zooplankton, marine resources, sustainable development, marine environment, nutrients, international cooperation, phytoplankton, chlorophyll, developing countries, time series, climate

Abstract

RADIALES (IEO), with the support of the Korea Institute for Ocean Science and Technology (KIOST)

Published

2017

3. New light for time series: international collaboration in ship-based ecosystem monitoring

Author

Bode, A. (Antonio), Bates, N.R., Cloern, J., Isensee, K., Lomas, M., Lorenzoni, L., Lotliker, A.A., Muller-Karger, F. (Frank), O'Brien, T., Richardson, A.J., Ross, A., Valdés-Santurio, L. (Luis), and Wiebe, P.

Subjects

hydrography, nutrients, plankton, time series, global, climate

Abstract

Ship-based biogeochemical and ecological time series are one of the most valuable tools to characterize and quantify ocean ecosystems. These programs continuously provided major breakthroughs in understanding ecosystem variability, allow quantification of the ocean carbon cycle, and help understand the processes that link biodiversity, food webs, and changes in services that benefit human societies. A quantum jump in regional and global ocean ecosystem science can be gained by aggregating observations from individual time series that are distributed across different oceans and which are managed by different countries. The collective value of these data is greater than that provided by each time series individually. However, maintaining time series requires a commitment by the science community and sponsor agencies.. Based on the success of existing initiatives, e.g. ICES and SCOR working groups, IOC-UNESCO launched the International Group for Marine Ecological Time Series (IGMETS, http://igmets.net) to promote collaborations across different individual projects, and jointly look at holistic changes within different ocean regions. The effort explores the reasons and connections for changes in phytoplankton and zooplankton at a global level and identifies locations where particularly large changes may be ocurring. This compilation will facilitate better coordination, communication, and data intercomparability among time series. IEO (RADIALES) IOC-UNESCO

Published

2015

4. Regional estimates of reef carbonate dynamics and productivity using Landsat 7 ETM+, and potential impacts from ocean acidification

Author

Moses, C. S., Andréfouët, Serge, Kranenburg, C. J., and Muller-Karger, F. E.

Subjects

Corals, Carbon cycle, Remote sensing, Millennium Coral Reef Map

Abstract

Using imagery at 30 m spatial resolution from the most recent Landsat satellite, the Landsat 7 Enhanced Thematic Mapper Plus (ETM+), we scale up reef metabolic productivity and calcification from local habitat-scale (10(-1) to 10(0) km(2)) measurements to regional scales (10(3) to 10(4) km(2)). Distribution and spatial extent of the North Florida Reef Tract (NFRT) habitats come from supervised classification of the Landsat imagery within independent Landsat-derived Millennium Coral Reef Map geomorphologic classes. This system minimizes the depth range and variability of benthic habitat characteristics found in the area of supervised classification and limits misclassification. Classification of Landsat imagery into 5 biotopes (sand, dense live cover, sparse live cover, seagrass, and sparse seagrass) by geomorphologic class is >73 % accurate at regional scales. Based on recently published habitat-scale in situ metabolic measurements, gross production (P=3.01 x 10(9) kg C yr(-1)), excess production (E = -5.70 x 10(8) kg C yr(-1)), and calcification (G = -1.68 x 10(6) kg CaCO3 yr(-1)) are estimated over 2711 km(2) of the NFRT. Simple models suggest sensitivity of these values to ocean acidification, which will increase local dissolution of carbonate sediments. Similar approaches could be applied over large areas with poorly constrained bathymetry or water column properties and minimal metabolic sampling. This tool has potential applications for modeling and monitoring large-scale environmental impacts on reef productivity, such as the influence of ocean acidification on coral reef environments.

Published

2009

5. Physical connectivity in the Mesoamerican Barrier Reef System inferred from 9 years of ocean color observations

Author

Soto, I., Andréfouët, Serge, Hu, C., Muller-Karger, F. E., Wall, C. C., Sheng, J., and Hatcher, B. G.

Subjects

Coral reefs, Connectivity matrices, Numerical modeling, River plumes, Remote sensing, Caribbean Sea

Abstract

Ocean color images acquired from the Sea-viewing Wide Field-of-view Sensor (SeaWiFS) from 1998 to 2006 were used to examine the patterns of physical connectivity between land and reefs, and among reefs in the Mesoamerican Barrier Reef System (MBRS) in the northwestern Caribbean Sea. Connectivity was inferred by tracking surface water features in weekly climatologies and a time series of weekly mean chlorophyll-a concentrations derived from satellite imagery. Frequency of spatial connections between 17 pre-defined, geomorphological domains that include the major reefs in the MBRS and river deltas in Honduras and Nicaragua were recorded and tabulated as percentage of connections. The 9-year time series of 466 weekly mean images portrays clearly the seasonal patterns of connectivity, including river plumes and transitions in the aftermath of perturbations such as hurricanes. River plumes extended offshore from the Honduras coast to the Bay Islands (Utila, Cayo Cochinos, Guanaja, and Roatan) in 70% of the weekly mean images. Belizean reefs, especially those in the southern section of the barrier reef and Glovers Atoll, were also affected by riverine discharges in every one of the 9 years. Glovers Atoll was exposed to river plumes originating in Honduras 104/466 times (22%) during this period. Plumes from eastern Honduras went as far as Banco Chinchorro and Cozumel in Mexico. Chinchorro appeared to be more frequently connected to Turneffe Atoll and Honduran rivers than with Glovers and Lighthouse Atolls, despite their geographic proximity. This new satellite data analysis provides long-term, quantitative assessments of the main pathways of connectivity in the region. The percentage of connections can be used to validate predictions made using other approaches such as numerical modeling, and provides valuable information to ecosystem-based management in coral reef provinces.

Published

2009

6. Regional-scale seagrass habitat mapping in the Wider Caribbean region using Landsat sensors : applications to conservation and ecology

Author

Wabnitz, C. C., Andréfouët, Serge, Torres-Pulliza, D., Muller-Karger, F. E., and Kramer, P. A.

Subjects

Biodiveisity, Etm, Conservation management, Chelonia mydas, Habitat database, Millennium coral reef mapping project, Thalassia testudinum, Coral reef, Sea turtle, Seagrass, Ikonos

Abstract

Seagrass meadows occupy a large proportion of the world's coastal oceans and are some of the most productive systems on Earth. Direct and indirect human-derived impacts have led to significant seagrass declines worldwide and the alteration of services linked to their biodiversity. Effective conservation and the provision of sustainable recovery goals for ecologically significant species are limited by the absence of reliable information on seagrass extent. This is especially true for the Wider Caribbean region (WCR) where many conservation initiatives are under way, but are impaired by the lack Of accurate baseline habitat maps. To assist with such a fundamental conservation need using high-resolution remote sensing data, both environmental and methodological challenges need to be tackled. First, the diversity of environments, the heterogeneity of habitats, and the vast extent of the targeted region mean that local expertise and field data of adequate quality and resolution are seldom available. Second, large-scale high-resolution mapping requires several hundred Landsat 5 and 7 images, which poses substantial processing problems. The main goal of this study was to test the feasibility of achieving Landsat-based large-scale seagrass mapping with limited ground-truth data and acceptable accuracies. We used the following combination of methods to map seagrass throughout the WCR: geomorphological segmentation, contextual editing, and supervised classifications. A total of 40 Landsat scenes (path-row) were processed. Three major classes were derived ('dense seagrass', 'medium-sparse seagrass', and a generic 'other' class). Products' accuracies were assessed against (i) selected in situ data; (ii) patterns detectable with very high-resolution IKONOS images; and (iii) published habitat maps with documented accuracies. Despite variable overall classification accuracies (46-88%), following their critical evaluation, the resulting thematic maps were deemed acceptable to (i) regionally Provide an adequate baseline for further large-scale conservation programs and research actions; and (ii) regionally re-assess carrying capacity estimates for green turtles. They certainly represent a drastic improvement relative to current regional databases.

Published

2008

7. Enhanced seamount location database for the western and central Pacific Ocean : screening and cross-checking of 20 existing datasets

Author

Allain, V., Kerandel, J. A., Andrefouët, Serge, Magron, F., Clark, M., Kirby, D. S., and Muller-Karger, F. E.

Subjects

Tuna fisheries, Marine-protected area, Seamounts, Satellite altimetry, High seas, Western and central pacific ocean, Seafloor mapping, Landsat

Abstract

Seamounts are habitats of considerable interest in terms of conservation and biodiversity, and in terms of fisheries for bentho-pelagic and pelagic species. Twenty previously compiled datasets including seamount/underwater feature lists, bathymetric maps and emerged feature maps from different sources (ship-derived and satellite altimetry-derived) at different spatial scales (from individual cruise to worldwide satellite data) were gathered in order to compile an enhanced list of underwater features for parts of the western and central Pacific Ocean (WCPO). The KL04 dataset [Kitchingman, A., and Lai, S., 2004. Inferences on potential seamount locations from mid-resolution bathymetric data. Fisheries Centre Research Reports 12 (5), 7-12], listing seamount positions and depths as calculated from satellite altimetry-derived bathymetry, provided the baseline data for this study as it covered the entire region of interest and included summit depth information. All KL04 potential seamounts were cross-checked with other datasets to remove any atolls and islands that had been incorrectly classified as seamounts, to add seamounts undetected by KL04, to update the overall database (geolocation, depth, elevation, and name) and to compile a 12-class typology of the different types of underwater features. of the 4626 potential seamounts identified in KL04, 719 were multiple identifications of the same large underwater features and 373 (10%) were actually emerged banks, atolls and islands, leaving 3534 actual underwater features. Conversely, 487 underwater features were documented in other datasets but not registered by KL04. The screening of all the potential WCPO seamounts produced a final list of 4021 underwater features with agreed upon position and information. This enhanced list should have many applications in oceanography, biodiversity conservation and studies of the influence of seamounts on pelagic ecosystems and fisheries.

Published

2008

8. Quantification of two decades of shallow-water coral reef habitat decline in the Florida Keys National Marine Sanctuary using Landsat data (1984-2002)

Author

Palandro, D. A., Andréfouët, Serge, Hu, C., Hallock, P., Muller-Karger, F. E., Dustan, P., Callahan, M. K., Kranenburg, C., and Beaver, C. R.

Subjects

Caribbean, Strategy shift, Cremp, Change detection, Habitat fragmentation, Coral reef habitat, Phase shift, Classification, Landsat

Abstract

The loss of coral reef habitats has been witnessed at a global scale including in the Florida Keys and the Caribbean. In addition to field surveys that can be spatially limited, remote sensing can provide a synoptic view of the changes occurring on coral reef habitats. Here, we utilize an 18-year time series of Landsat 5/TM and 7/ETM+ images to assess changes in eight coral reef sites in the Florida Keys National Marine Sanctuary, namely Carysfort Reef, Grecian Rocks, Molasses Reef, Conch Reef, Sombrero Reef, Looe Key Reef, Western Sambo and Sand Key Reef. Twenty-eight Landsat images (1984-2002) were used, with imagery gathered every 2 years during spring, and every 6 years during fall. The image dataset was georectified, calibrated to remote sensing reflectance and corrected for atmospheric and water-column effects. A Mahalanobis distance classification was trained for four habitat classes ('coral', 'sand', 'bare hardbottom' and 'covered hardbottom') using in situ ground-truthing data collected in 2003-2004 and using the spectral statistics from a 2002 image. The red band was considered useful only for benthic habitats in depths less than 6 m. Overall mean coral habitat loss for all sites classified by Landsat was 61% (3.4%/year), from a percentage habitat cover of 19% (1984) down to 7.6% (2002). The classification results for the eight different sites were critically reviewed. A detailed pixel by pixel examination of the spatial patterns across time suggests that the results range from ecologically plausible to unreliable due to spatial inconsistencies and/or improbable ecological successions. In situ monitoring data acquired by the Coral Reef Evaluation and Monitoring Project (CREMP) for the eight reef sites between 1996 and 2002 showed a loss in coral cover of 52% (8.7%/year), whereas the Landsat-derived coral habitat areas decreased by 37% (6.2%/year). A direct trend comparison between the entire CREMP percent coral cover data set (1996-2004) and the entire Landsat-derived coral habitat areas showed no significant difference between the two time series (ANCOVA; F-test, p = 0.303, n = 32), despite the different scales of measurements.

Published

2008

9. The color signature of the Ensenada front and its seasonal and interannual variability

Author

Eduardo Santamaria-del-Angel, Gonzalez-Silvera, A., Millan-Nuñez, R., and Müller-Karger, F.

10. Monitoring coral reefs from space

Author

Eakin, C. M., Nim, C. J., Brainard, R. E., Aubrecht, C., Elvidge, C., Gledhill, D. K., Muller-Karger, F., Mumby, P. J., Skirving, W. J., Strong, A. E., Wang, M., Scarla Weeks, Wentz, F., and Ziskin, D.

11. Volume 11, SeaWiFS postlaunch calibration and validation analyses, Part 3

Author

O Reilly, J. E., Maritorena, S., O Brien, M. C., Siegel, D. A., Toole, D., Menzies, D., Smith, R. C., Mueller, J. L., Mitchell, B. G., Kahru, M., Chavez, F. P., Strutton, P., Cota, G. F., Hooker, S. B., Mcclain, C. R., Carder, K. L., Muller-Karger, F., Harding, L., Magnuson, A., Phinney, D., Moore, G. F., Aiken, J., Arrigo, K. R., Ricardo Letelier, and Culver, M.

12. Phytoplankton blooms: New initiative using marine optics as a basis for monitoring programs

Author

Santamaría-Del-Angel, E., Soto, I., Millán-Nuñez, R., Adriana Gonzalez-Silvera, Wolny, J., Cerdeira-Estrada, S., Cajal-Medrano, R., Muller-Karger, F., Cannizzaro, J., Padilla-Rosas, Y. X. S., Mercado-Santana, A., Gracia-Escobar, M. F., Alvarez-Torres, P., and Ruiz-De-La-Torre, M. C.

13. A Framework for a Marine Biodiversity Observing Network Within Changing Continental Shelf Seascapes

Author

Muller-Karger, F. E., Kavanaugh, M. T., Montes, E., Balch, W. M., Breitbart, M., Chavez, F. P., Scott Doney, Johns, E. M., Letelier, R. M., Lomas, M. W., Sosik, H. M., and White, A. E.