Your search keyword '"Warren-Rhodes K"' showing total 39 results

1. Insights of Extreme Desert Ecology to the Habitats and Habitability of Mars

Author

Warren-Rhodes, K., Phillips, M., Davila, A., McKay, C. P., Canadell, Josep G., Series Editor, Díaz, Sandra, Series Editor, Heldmaier, Gerhard, Series Editor, Jackson, Robert B., Series Editor, Levia, Delphis F., Series Editor, Schulze, Ernst-Detlef, Series Editor, Sommer, Ulrich, Series Editor, Wardle, David A., Series Editor, Ramond, Jean-Baptiste, editor, and Cowan, Don A., editor

Published

2022

2. Use of a Novel Rover-mounted Fluorescence Imager and Fluorescent Probes to Detect Biological Material in the Atacama Desert in Daylight

Author

Weinstein, S, Pane, D, Warren-Rhodes, K, Cockell, C, Ernst, L. A, Minkley, E, Fisher, G, Emani, S, Wettergreen, D. S, and Wagner, M

Subjects

Lunar And Planetary Science And Exploration

Abstract

We have developed an imaging system, the Fluorescence Imager (FI), for detecting fluorescence signals from sparse microorganisms and biofilms during autonomous rover exploration. The fluorescence signals arise both from naturally occurring chromophores, such as chlorophyll of cyanobacteria and lichens, and from fluorescent probes applied to soil and rocks. Daylight imaging has been accomplished by a novel use of a high-powered flashlamp synchronized to a CCD camera. The fluorescent probes are cell permanent stains that have extremely low intrinsic fluorescence (quantum yields less than 0.01) and a large fluorescence enhancement (quantum yields greater than 0.4) when bound to the target. Each probe specifically targets either carbohydrates, proteins, nucleic acids or membrane lipids, the four classes of macromolecules found in terrestrial life. The intent of the probes is to interrogate the environment for surface and endolithic life forms.

Published

2005

3. Escalating trends in the urban metabolism of Hong Kong: 1971-1997

Author

Warren-Rhodes, K and Koenig, A

Subjects

Environment Pollution

Abstract

Urban metabolism measures quantitatively a city's load on the natural environment. We update the Newcombe et al. (3) pioneering study of Hong Kong's urban metabolism in 1971, highlighting trends in resource consumption and waste generation. Per capita food, water and materials consumption have surged since the early 1970s by 20%, 40%, and 149%, respectively. Tremendous pollution has accompanied this growing affluence and materialism, and total air emissions, CO2 outputs, municipal solid wastes, and sewage discharges have risen by 30%, 250%, 245%, and 153%. As a result, systemic overload of land, atmospheric and water systems has occurred. While some strategies to tackle deteriorating environmental quality have succeeded, greater and more far-reaching changes in consumer behavior and government policy are needed if Hong Kong is to achieve its stated goal of becoming "a truly sustainable city" in the 21st century.

Published

2001

4. Implementation of a daylight fluorescence imaging system to autonomously detect biomarkers of extant life in the Atacama Desert

Author

Weinstein, S., Pane, D., Warren-Rhodes, K., Cockell, C., Ernst, L. A., Minkley, E., Fisher, G., Emani, S., Wettergreen, D. S., Wagner, M., Cabrol, N. A., Grim, E., and Waggoner, A. S.

Abstract

We have integrated a biomarker detection system with a rover for the search for sparse life in extreme environments. The system incorporated a pulsed fluorescence imager, a reagent sprayer, and a surface scraping device for remote detection of fluorescence signals.

Published

2006

5. Life in the Atacama — Year 2: Geologic reconnaissance through long-range roving and implications on the search for life

Author

Dohm, J. M., Cabrol, N. A., Grin, E. A., Moersch, J., Chong Diaz, G., Cockell, C., Coppin, P., Fisher, G., Hock, A. N., Marinangeli, L., Minkley, N., Ori, G. G., Piatek, J. L., Warren-Rhodes, K., Weinstein, S., Wyatt, M., Smith, T., Wagner, M., Stubb, K., Thomas, G., and Glasgow, J.

Abstract

The Life in the Atacama-2004 project, which included geological, morphological, and mineralogical mapping through combined satellite, field-based, and microscopic perspectives and long-range roving, led to the localization of potential habitats.

Published

2005

6. Use of a novel rover-mounted fluorescence imager and fluorescent probes to detect biological material in the Atacama Desert in daylight

Author

Weinstein, S., Pane, D., Warren-Rhodes, K., Cockell, C., Ernst, L. A., Minkley, E., Fisher, G., Emani, S., Wettergreen, D. S., Wagner, M., Cabrol, J. N., and Waggoner, A. S.

Abstract

We deployed our fluorescence imaging system which detects fluorescence signals from sparse microorganisms and biofilms on Carnegie Mellon University’s autonomous rover Zoë. The results of the 2004 Atacama Desert field season, in Chile, are discussed.

Published

2005

7. Searching for life with rovers: exploration methods and science results from the 2004 field campaign of the 'Life in the Atacama' project and applications to future Mars Missions

Author

Cabrol, N. A., Wettergree, D. S., Whittaker, R., Grin, E. A., Moersch, J. E., Chong-Diaz, G., Cockell, C., Coppin, P., Dohm, J. M., Fisher, G., Hock, A. N., Marinangeli, L., Minkley, N., Ori, G. G., Piatek, J. L., Waggoner, A., Warren-Rhodes, K., Weinstein, S., Wyatt, M., Calderon, F., Heys, S., Jonak, D., Luders, A., Pane, T., Smith, T., Stubbs, K., Teza, J., Thompkins, P., Villa, D., and Willams, C.

Abstract

LITA develops and field tests a long-range automated rover and a science payload to search for microbial life in the Atacama. The Atacama's evolution provides a unique training ground for designing and testing exploration strategies and life detection methods for the search for life on Mars.

Published

2005

8. Spectroscopic results from the Life in the Atacama (LITA) project 2004 field season

Author

Piatek, J. L., Moersch, J. E., Wyatt, M., Rampe, M., Cabrol, N. A., Wettergreen, D. S., Whittaker, R., Grin, E. A., Chong Diaz, G., Cockell, C., Coppin, P., Dohm, J. M., Fisher, G., Hock, A. N., Marinangeli, L., Minkley, N., Ori, G. G., Waggoner, A., Warren-Rhodes, K., Weinstein, S., Apostolopoulos, D., Smith, T., Wagner, M., Stubb, K., Thomas, G., and Glasgow, J.

Abstract

Analysis of spectroscopy datasets from rover field tests in the Atacama Desert (Chile), focusing on the composition of the surface and identification of potential habitats for life.

Published

2005

9. Marine ecological footprint of the live reef fish food trade

Author

Warren-Rhodes, K., Sadovy, Y., Cesar, H.S.J., Institute for Environmental Studies, and Environmental Economics

Published

2004

10. Mangrove ecosystem services and payments for blue carbon in Solomon Islands

Author

Albert, J.A., Warren-Rhodes, K., Schwarz, A.J., Duke, N.D., Albert, J.A., Warren-Rhodes, K., Schwarz, A.J., and Duke, N.D.

Abstract

The AusAID Development Research Project: Poverty Alleviation, Mangrove Conservation and Climate Change: Carbon offsets as payment for mangrove ecosystem services in Solomon Islands (# 49892) was designed to evaluate the potential for mangrove carbon revenue programs in Solomon Islands. The approach was to address three main questions: (1) How are mangrove ecosystem goods and services currently used and valued by coastal populations with a high reliance on a subsistence economy? (2) What is the total carbon stock held in mangrove ecosystems? and (3) Are carbon markets, whether compliance or voluntary, feasible options for Solomon Islands communities and government to alleviate poverty, reduce mangrove forest resource degradation and contribute to climate change adaptation and mitigation? The project was conducted through a partnership between the WorldFish Center and the Solomon Islands Ministry of Environment, Climate Change, Disaster Management and Meteorology (MECDM). Here we present the project’s main research findings and concomitant policy implications for local communities and government agencies, NGOs and other stakeholders involved in climate change and REDD+ activities.

Published

2012

11. Searching for microbial life remotely: Satellite-to-rover habitat mapping in the Atacama Desert, Chile

Author

Warren-Rhodes, K., Weinstein, S., Dohm, J., Piatek, J., Minkley, E., Hock, A., Cockell, C., Pane, D., Ernst, L. A., Fisher, G., Emani, S., Waggoner, A. S., Cabrol, N. A., Wettergreen, D. S., Apostolopoulos, D., Coppin, Peter, Grin, E., Diaz, Chong, Moersch, J., Oril, G. G., Smith, T., Stubbs, K., Thomas, G., Wagner, M., Wyatt, M., Warren-Rhodes, K., Weinstein, S., Dohm, J., Piatek, J., Minkley, E., Hock, A., Cockell, C., Pane, D., Ernst, L. A., Fisher, G., Emani, S., Waggoner, A. S., Cabrol, N. A., Wettergreen, D. S., Apostolopoulos, D., Coppin, Peter, Grin, E., Diaz, Chong, Moersch, J., Oril, G. G., Smith, T., Stubbs, K., Thomas, G., Wagner, M., and Wyatt, M.

Abstract

[1] The Atacama Desert, one of the most arid landscapes on Earth, serves as an analog for the dry conditions on Mars and as a test bed in the search for life on other planets. During the Life in the Atacama (LITA) 2004 field experiment, satellite imagery and ground-based rover data were used in concert with a ‘follow-the-water’ exploration strategy to target regions of biological interest in two (1 coastal, 1 inland) desert study sites. Within these regions, environments were located, studied and mapped with spectroscopic and fluorescence imaging (FI) for habitats and microbial life. Habitats included aqueous sedimentary deposits (e.g., evaporites), igneous materials (e.g., basalt, ash deposits), rock outcrops, drainage channels and basins, and alluvial fans. Positive biological signatures (chlorophyll, DNA, protein) were detected at 81% of the 21 locales surveyed with the FI during the long-range, autonomous traverses totaling 30 km. FI sensitivity in detecting microbial life in extreme deserts explains the high percentage of positives despite the low actual abundance of heterotrophic soil bacteria in coastal (<1–104 CFU/g-soil) and interior (<1–102 CFU/g-soil) desert soils. Remote habitat, microbial and climate observations agreed well with ground-truth, indicating a drier and less microbially rich interior compared to the relatively wetter and abundant biology of the coastal site where rover sensors detected the presence of fog and abundant surface lichens. LITA project results underscore the importance of an explicit focus by all engineering and science disciplines on microbially relevant scales (mm to nm), and highlight the success of satellite-based and ‘follow-the-water’ strategies for locating diverse habitats of biological promise and detecting the microbial hotspots within them.

Published

2007

12. Changes in the soil C cycle at the arid‐hyperarid transition in the Atacama Desert

Author

Ewing, S. A., primary, Macalady, J. L., additional, Warren‐Rhodes, K., additional, McKay, C. P., additional, and Amundson, R., additional

Published

2008

13. Application of pulsed‐excitation fluorescence imager for daylight detection of sparse life in tests in the Atacama Desert

Author

Weinstein, S., primary, Pane, D., additional, Ernst, L. A., additional, Warren‐Rhodes, K., additional, Dohm, J. M., additional, Hock, A. N., additional, Piatek, J. L., additional, Emani, S., additional, Lanni, F., additional, Wagner, M., additional, Fisher, G. W., additional, Minkley, E., additional, Dansey, L. E., additional, Smith, T., additional, Grin, E. A., additional, Stubbs, K., additional, Thomas, G., additional, Cockell, C. S., additional, Marinangeli, L., additional, Ori, G. G., additional, Heys, S., additional, Teza, J. P., additional, Moersch, J. E., additional, Coppin, P., additional, Diaz, G. Chong, additional, Wettergreen, D. S., additional, Cabrol, N. A., additional, and Waggoner, A. S., additional

Published

2008

14. Robotic ecological mapping: Habitats and the search for life in the Atacama Desert

Author

Warren-Rhodes, K., primary, Weinstein, S., additional, Piatek, J. L., additional, Dohm, J., additional, Hock, A., additional, Minkley, E., additional, Pane, D., additional, Ernst, L. A., additional, Fisher, G., additional, Emani, S., additional, Waggoner, A. S., additional, Cabrol, N. A., additional, Wettergreen, D. S., additional, Grin, E., additional, Coppin, P., additional, Diaz, Chong, additional, Moersch, J., additional, Oril, G. G., additional, Smith, T., additional, Stubbs, K., additional, Thomas, G., additional, Wagner, M., additional, Wyatt, M., additional, and Boyle, L. Ng, additional

Published

2007

15. Comparing different methods for assessing ground truth of rover data analysis for the 2005 season of the Life in the Atacama Project

Author

Thomas, G. W., primary, Peate, I. Ukstins, additional, Nakamoto, J., additional, Pudenz, E., additional, Glasgow, J., additional, Bretthauer, J., additional, Cabrol, N., additional, Wettergreen, D., additional, Grin, E., additional, Coppin, P., additional, Dohm, J. M., additional, Piatek, J. L., additional, Warren-Rhodes, K., additional, Hock, A. N., additional, Weinstein, S., additional, Fisher, G., additional, Diaz, G. Chong, additional, Cockell, C., additional, Marinangeli, L., additional, Minkley, N., additional, Moersch, J., additional, Ori, G. G., additional, Smith, T., additional, Stubb, K., additional, Wagner, M., additional, and Waggoner, A. S., additional

Published

2007

16. Searching for microbial life remotely: Satellite‐to‐rover habitat mapping in the Atacama Desert, Chile

Author

Warren‐Rhodes, K., primary, Weinstein, S., additional, Dohm, J., additional, Piatek, J., additional, Minkley, E., additional, Hock, A., additional, Cockell, C., additional, Pane, D., additional, Ernst, L. A., additional, Fisher, G., additional, Emani, S., additional, Waggoner, A. S., additional, Cabrol, N. A., additional, Wettergreen, D. S., additional, Apostolopoulos, D., additional, Coppin, P., additional, Grin, E., additional, Diaz, Chong, additional, Moersch, J., additional, Oril, G. G., additional, Smith, T., additional, Stubbs, K., additional, Thomas, G., additional, Wagner, M., additional, and Wyatt, M., additional

Published

2007

17. Implementation of a daylight fluorescence imaging system to autonomously detect biomarkers of extant life in the Atacama Desert

Author

Weinstein, S., Pane, D., Warren-Rhodes, K., Cockell, C., Ernst, L. A., Minkley, E., Fisher, G., Emani, S., Wettergreen, D. S., Wagner, M., Cabrol, N. A., Grim, E., Waggoner, A. S., Weinstein, S., Pane, D., Warren-Rhodes, K., Cockell, C., Ernst, L. A., Minkley, E., Fisher, G., Emani, S., Wettergreen, D. S., Wagner, M., Cabrol, N. A., Grim, E., and Waggoner, A. S.

Abstract

We have integrated a biomarker detection system with a rover for the search for sparse life in extreme environments. The system incorporated a pulsed fluorescence imager, a reagent sprayer, and a surface scraping device for remote detection of fluorescence signals.

18. Spectroscopic results from the Life in the Atacama (LITA) project 2004 field season

Author

Piatek, J. L., Moersch, J. E., Wyatt, M., Rampe, M., Cabrol, N. A., Wettergreen, D. S., Whittaker, R., Grin, E. A., Chong Diaz, G., Cockell, C., Coppin, P., Dohm, J. M., Fisher, G., Hock, A. N., Marinangeli, L., Minkley, N., Ori, G. G., Waggoner, A., Warren-Rhodes, K., Weinstein, S., Apostolopoulos, D., Smith, T., Wagner, M., Stubb, K., Thomas, G., Glasgow, J., Piatek, J. L., Moersch, J. E., Wyatt, M., Rampe, M., Cabrol, N. A., Wettergreen, D. S., Whittaker, R., Grin, E. A., Chong Diaz, G., Cockell, C., Coppin, P., Dohm, J. M., Fisher, G., Hock, A. N., Marinangeli, L., Minkley, N., Ori, G. G., Waggoner, A., Warren-Rhodes, K., Weinstein, S., Apostolopoulos, D., Smith, T., Wagner, M., Stubb, K., Thomas, G., and Glasgow, J.

Abstract

Analysis of spectroscopy datasets from rover field tests in the Atacama Desert (Chile), focusing on the composition of the surface and identification of potential habitats for life.

19. Life in the Atacama — Year 2: Geologic reconnaissance through long-range roving and implications on the search for life

Author

Dohm, J. M., Cabrol, N. A., Grin, E. A., Moersch, J., Chong Diaz, G., Cockell, C., Coppin, P., Fisher, G., Hock, A. N., Marinangeli, L., Minkley, N., Ori, G. G., Piatek, J. L., Warren-Rhodes, K., Weinstein, S., Wyatt, M., Smith, T., Wagner, M., Stubb, K., Thomas, G., Glasgow, J., Dohm, J. M., Cabrol, N. A., Grin, E. A., Moersch, J., Chong Diaz, G., Cockell, C., Coppin, P., Fisher, G., Hock, A. N., Marinangeli, L., Minkley, N., Ori, G. G., Piatek, J. L., Warren-Rhodes, K., Weinstein, S., Wyatt, M., Smith, T., Wagner, M., Stubb, K., Thomas, G., and Glasgow, J.

Abstract

The Life in the Atacama-2004 project, which included geological, morphological, and mineralogical mapping through combined satellite, field-based, and microscopic perspectives and long-range roving, led to the localization of potential habitats.

20. Use of a novel rover-mounted fluorescence imager and fluorescent probes to detect biological material in the Atacama Desert in daylight

Author

Weinstein, S., Pane, D., Warren-Rhodes, K., Cockell, C., Ernst, L. A., Minkley, E., Fisher, G., Emani, S., Wettergreen, D. S., Wagner, M., Cabrol, J. N., Waggoner, A. S., Weinstein, S., Pane, D., Warren-Rhodes, K., Cockell, C., Ernst, L. A., Minkley, E., Fisher, G., Emani, S., Wettergreen, D. S., Wagner, M., Cabrol, J. N., and Waggoner, A. S.

Abstract

We deployed our fluorescence imaging system which detects fluorescence signals from sparse microorganisms and biofilms on Carnegie Mellon University’s autonomous rover Zoë. The results of the 2004 Atacama Desert field season, in Chile, are discussed.

21. Searching for life with rovers: exploration methods and science results from the 2004 field campaign of the “Life in the Atacama” project and applications to future Mars Missions

Author

Cabrol, N. A., Wettergree, D. S., Whittaker, R., Grin, E. A., Moersch, J. E., Chong-Diaz, G., Cockell, C., Coppin, P., Dohm, J. M., Fisher, G., Hock, A. N., Marinangeli, L., Minkley, N., Ori, G. G., Piatek, J. L., Waggoner, A., Warren-Rhodes, K., Weinstein, S., Wyatt, M., Calderon, F., Heys, S., Jonak, D., Luders, A., Pane, T., Smith, T., Stubbs, K., Teza, J., Thompkins, P., Villa, D., Willams, C., Cabrol, N. A., Wettergree, D. S., Whittaker, R., Grin, E. A., Moersch, J. E., Chong-Diaz, G., Cockell, C., Coppin, P., Dohm, J. M., Fisher, G., Hock, A. N., Marinangeli, L., Minkley, N., Ori, G. G., Piatek, J. L., Waggoner, A., Warren-Rhodes, K., Weinstein, S., Wyatt, M., Calderon, F., Heys, S., Jonak, D., Luders, A., Pane, T., Smith, T., Stubbs, K., Teza, J., Thompkins, P., Villa, D., and Willams, C.

Abstract

LITA develops and field tests a long-range automated rover and a science payload to search for microbial life in the Atacama. The Atacama's evolution provides a unique training ground for designing and testing exploration strategies and life detection methods for the search for life on Mars.

22. Life in the Atacama — Year 2: Geologic reconnaissance through long-range roving and implications on the search for life

Author

Dohm, J. M., Cabrol, N. A., Grin, E. A., Moersch, J., Chong Diaz, G., Cockell, C., Coppin, P., Fisher, G., Hock, A. N., Marinangeli, L., Minkley, N., Ori, G. G., Piatek, J. L., Warren-Rhodes, K., Weinstein, S., Wyatt, M., Smith, T., Wagner, M., Stubb, K., Thomas, G., Glasgow, J., Dohm, J. M., Cabrol, N. A., Grin, E. A., Moersch, J., Chong Diaz, G., Cockell, C., Coppin, P., Fisher, G., Hock, A. N., Marinangeli, L., Minkley, N., Ori, G. G., Piatek, J. L., Warren-Rhodes, K., Weinstein, S., Wyatt, M., Smith, T., Wagner, M., Stubb, K., Thomas, G., and Glasgow, J.

Abstract

The Life in the Atacama-2004 project, which included geological, morphological, and mineralogical mapping through combined satellite, field-based, and microscopic perspectives and long-range roving, led to the localization of potential habitats.

23. Spectroscopic results from the Life in the Atacama (LITA) project 2004 field season

Author

Piatek, J. L., Moersch, J. E., Wyatt, M., Rampe, M., Cabrol, N. A., Wettergreen, D. S., Whittaker, R., Grin, E. A., Chong Diaz, G., Cockell, C., Coppin, P., Dohm, J. M., Fisher, G., Hock, A. N., Marinangeli, L., Minkley, N., Ori, G. G., Waggoner, A., Warren-Rhodes, K., Weinstein, S., Apostolopoulos, D., Smith, T., Wagner, M., Stubb, K., Thomas, G., Glasgow, J., Piatek, J. L., Moersch, J. E., Wyatt, M., Rampe, M., Cabrol, N. A., Wettergreen, D. S., Whittaker, R., Grin, E. A., Chong Diaz, G., Cockell, C., Coppin, P., Dohm, J. M., Fisher, G., Hock, A. N., Marinangeli, L., Minkley, N., Ori, G. G., Waggoner, A., Warren-Rhodes, K., Weinstein, S., Apostolopoulos, D., Smith, T., Wagner, M., Stubb, K., Thomas, G., and Glasgow, J.

Abstract

Analysis of spectroscopy datasets from rover field tests in the Atacama Desert (Chile), focusing on the composition of the surface and identification of potential habitats for life.

24. Implementation of a daylight fluorescence imaging system to autonomously detect biomarkers of extant life in the Atacama Desert

Author

Weinstein, S., Pane, D., Warren-Rhodes, K., Cockell, C., Ernst, L. A., Minkley, E., Fisher, G., Emani, S., Wettergreen, D. S., Wagner, M., Cabrol, N. A., Grim, E., Waggoner, A. S., Weinstein, S., Pane, D., Warren-Rhodes, K., Cockell, C., Ernst, L. A., Minkley, E., Fisher, G., Emani, S., Wettergreen, D. S., Wagner, M., Cabrol, N. A., Grim, E., and Waggoner, A. S.

Abstract

We have integrated a biomarker detection system with a rover for the search for sparse life in extreme environments. The system incorporated a pulsed fluorescence imager, a reagent sprayer, and a surface scraping device for remote detection of fluorescence signals.

25. Use of a novel rover-mounted fluorescence imager and fluorescent probes to detect biological material in the Atacama Desert in daylight

Author

Weinstein, S., Pane, D., Warren-Rhodes, K., Cockell, C., Ernst, L. A., Minkley, E., Fisher, G., Emani, S., Wettergreen, D. S., Wagner, M., Cabrol, J. N., Waggoner, A. S., Weinstein, S., Pane, D., Warren-Rhodes, K., Cockell, C., Ernst, L. A., Minkley, E., Fisher, G., Emani, S., Wettergreen, D. S., Wagner, M., Cabrol, J. N., and Waggoner, A. S.

Abstract

We deployed our fluorescence imaging system which detects fluorescence signals from sparse microorganisms and biofilms on Carnegie Mellon University’s autonomous rover Zoë. The results of the 2004 Atacama Desert field season, in Chile, are discussed.

26. Searching for life with rovers: exploration methods and science results from the 2004 field campaign of the “Life in the Atacama” project and applications to future Mars Missions

Author

Cabrol, N. A., Wettergree, D. S., Whittaker, R., Grin, E. A., Moersch, J. E., Chong-Diaz, G., Cockell, C., Coppin, P., Dohm, J. M., Fisher, G., Hock, A. N., Marinangeli, L., Minkley, N., Ori, G. G., Piatek, J. L., Waggoner, A., Warren-Rhodes, K., Weinstein, S., Wyatt, M., Calderon, F., Heys, S., Jonak, D., Luders, A., Pane, T., Smith, T., Stubbs, K., Teza, J., Thompkins, P., Villa, D., Willams, C., Cabrol, N. A., Wettergree, D. S., Whittaker, R., Grin, E. A., Moersch, J. E., Chong-Diaz, G., Cockell, C., Coppin, P., Dohm, J. M., Fisher, G., Hock, A. N., Marinangeli, L., Minkley, N., Ori, G. G., Piatek, J. L., Waggoner, A., Warren-Rhodes, K., Weinstein, S., Wyatt, M., Calderon, F., Heys, S., Jonak, D., Luders, A., Pane, T., Smith, T., Stubbs, K., Teza, J., Thompkins, P., Villa, D., and Willams, C.

Abstract

LITA develops and field tests a long-range automated rover and a science payload to search for microbial life in the Atacama. The Atacama's evolution provides a unique training ground for designing and testing exploration strategies and life detection methods for the search for life on Mars.

27. The Atacama Rover Astrobiology Drilling Studies (ARADS) Project.

Author

Glass B, Bergman D, Parro V, Kobayashi L, Stoker C, Quinn R, Davila A, Willis P, Brinckerhoff W, Warren-Rhodes K, Wilhelm MB, Caceres L, DiRuggiero J, Zacny K, Moreno-Paz M, Dave A, Seitz S, Grubisic A, Castillo M, and Bonaccorsi R

Subjects

Humans, Extraterrestrial Environment, Dust, Exobiology methods, Mars

Abstract

With advances in commercial space launch capabilities and reduced costs to orbit, humans may arrive on Mars within a decade. Both to preserve any signs of past (and extant) martian life and to protect the health of human crews (and Earth's biosphere), it will be necessary to assess the risk of cross-contamination on the surface, in blown dust, and into the near-subsurface (where exploration and resource-harvesting can be reasonably anticipated). Thus, evaluating for the presence of life and biosignatures may become a critical-path Mars exploration precursor in the not-so-far future, circa 2030. This Special Collection of papers from the Atacama Rover Astrobiology Drilling Studies (ARADS) project describes many of the scientific, technological, and operational issues associated with searching for and identifying biosignatures in an extreme hyperarid region in Chile's Atacama Desert, a well-studied terrestrial Mars analog environment. This paper provides an overview of the ARADS project and discusses in context the five other papers in the ARADS Special Collection, as well as prior ARADS project results.

Published

2023

28. In Situ Real-Time Monitoring for Aseptic Drilling: Lessons Learned from the Atacama Rover Astrobiology Drilling Studies Contamination Control Strategy and Implementation and Application to the Icebreaker Mars Life Detection Mission.

Author

Bonaccorsi R, Glass B, Moreno-Paz M, García-Villadangos M, Warren-Rhodes K, Parro V, Manchado JM, Wilhelm MB, and McKay CP

Subjects

Humans, Exobiology methods, Adenosine Triphosphate, Biomarkers analysis, Extraterrestrial Environment, Cyanobacteria, Robotics, Mars

Abstract

In 2019, the Atacama Rover Astrobiology Drilling Studies (ARADS) project field-tested an autonomous rover-mounted robotic drill prototype for a 6-Sol life detection mission to Mars (Icebreaker). ARADS drilled Mars-like materials in the Atacama Desert (Chile), one of the most life-diminished regions on Earth, where mitigating contamination transfer into life-detection instruments becomes critical. Our Contamination Control Strategy and Implementation (CCSI) for the Sample Handling and Transfer System (SHTS) hardware (drill, scoop and funnels) included out-of-simulation protocol testing (out-of-sim) for hardware decontamination and verification during the 6-Sol simulation (in-sim). The most effective five-step decontamination combined safer-to-use sterilants (3%&#95;hydrogen-peroxide-activated 5%&#95;sodium-hypochlorite), and in situ real-time verification by adenosine triphosphate (ATP) and Signs of Life Detector (SOLID) Fluorescence Immunoassay for characterization hardware bioburden and airborne contaminants. The 20- to 40-min protocol enabled a 4-log bioburden reduction down to <0.1 fmoles ATP detection limit (funnels and drill) to 0.2-0.7 fmoles (scoop) of total ATP. The (post-cleaning) hardware background was 0.3 to 1-2 attomoles ATP/cm 2 (cleanliness benchmark background values) equivalent to ca. 1-10 colony forming unit (CFU)/cm 2 . Further, 60-100% of the in-sim hardware background was ≤3-4 bacterial cells/cm 2 , the threshold limit for Class <7 aseptic operations. Across the six Sols, the flux of airborne contaminants to the drill sites was ∼5 and ∼22 amoles ATP/(cm 2 ·day), accounting for an unexpectedly high Fluorescence Intensity (FI) signal (FI: ∼6000) against aquatic cyanobacteria, but negligible anthropogenic contribution. The SOLID immunoassay also detected microorganisms from multiple habitats across the Atacama Desert (anoxic, alkaline/acidic microenvironments in halite fields, playas, and alluvial fans) in both airborne and post-cleaning hardware background. Finally, the hardware ATP background was 40-250 times lower than the ATP in cores. Similarly, the FI peaks (FI max ) against the microbial taxa and molecular biomarkers detected in the post-cleaned hardware (FI: ∼1500-1600) were 5-10 times lower than biomarkers in drilled sediments, excluding significant interference with putative biomarker found in cores. Similar protocols enable the acquisition of contamination-free materials for ultra-sensitive instruments analysis and the integrity of scientific results. Their application can augment our scientific knowledge of the distribution of cryptic life on Mars-like grounds and support life-detection robotic and human-operated missions to Mars.

Published

2023

29. Life Detection and Microbial Biomarker Profiling with Signs of Life Detector-Life Detector Chip During a Mars Drilling Simulation Campaign in the Hyperarid Core of the Atacama Desert.

Author

Moreno-Paz M, Dos Santos Severino RS, Sánchez-García L, Manchado JM, García-Villadangos M, Aguirre J, Fernández-Martínez MA, Carrizo D, Kobayashi L, Dave A, Warren-Rhodes K, Davila A, Stoker CR, Glass B, and Parro V

Subjects

Ultraviolet Rays, Exobiology methods, Antibodies, Biomarkers analysis, Desert Climate, Cyanobacteria, Mars

Abstract

The low organic matter content in the hyperarid core of the Atacama Desert, together with abrupt temperature shifts and high ultraviolet radiation at its surface, makes this region one of the best terrestrial analogs of Mars and one of the best scenarios for testing instrumentation devoted to in situ planetary exploration. We have operated remotely and autonomously the SOLID-LDChip (Signs of Life Detector-Life Detector Chip), an antibody microarray-based sensor instrument, as part of a rover payload during the 2019 NASA Atacama Rover Astrobiology Drilling Studies (ARADS) Mars drilling simulation campaign. A robotic arm collected drilled cuttings down to 80 cm depth and loaded SOLID to process and assay them with LDChip for searching for molecular biomarkers. A remote science team received and analyzed telemetry data and LDChip results. The data revealed the presence of microbial markers from Proteobacteria, Acidobacteria, Bacteroidetes, Actinobacteria, Firmicutes, and Cyanobacteria to be relatively more abundant in the middle layer (40-50 cm). In addition, the detection of several proteins from nitrogen metabolism indicates a pivotal role in the system. These findings were corroborated and complemented on "returned samples" to the lab by a comprehensive analysis that included DNA sequencing, metaproteomics, and a metabolic reconstruction of the sampled area. Altogether, the results describe a relatively complex microbial community with members capable of nitrogen fixation and denitrification, sulfur oxidation and reduction, or triggering oxidative stress responses, among other traits. This remote operation demonstrated the high maturity of SOLID-LDChip as a powerful tool for remote in situ life detection for future missions in the Solar System.

Published

2023

30. 'Follow the Water': Microbial Water Acquisition in Desert Soils.

Author

Cowan DA, Cary SC, DiRuggiero J, Eckardt F, Ferrari B, Hopkins DW, Lebre PH, Maggs-Kölling G, Pointing SB, Ramond JB, Tribbia D, and Warren-Rhodes K

Abstract

Water availability is the dominant driver of microbial community structure and function in desert soils. However, these habitats typically only receive very infrequent large-scale water inputs (e.g., from precipitation and/or run-off). In light of recent studies, the paradigm that desert soil microorganisms are largely dormant under xeric conditions is questionable. Gene expression profiling of microbial communities in desert soils suggests that many microbial taxa retain some metabolic functionality, even under severely xeric conditions. It, therefore, follows that other, less obvious sources of water may sustain the microbial cellular and community functionality in desert soil niches. Such sources include a range of precipitation and condensation processes, including rainfall, snow, dew, fog, and nocturnal distillation, all of which may vary quantitatively depending on the location and geomorphological characteristics of the desert ecosystem. Other more obscure sources of bioavailable water may include groundwater-derived water vapour, hydrated minerals, and metabolic hydro-genesis. Here, we explore the possible sources of bioavailable water in the context of microbial survival and function in xeric desert soils. With global climate change projected to have profound effects on both hot and cold deserts, we also explore the potential impacts of climate-induced changes in water availability on soil microbiomes in these extreme environments.

Published

2023

31. Assessing siliceous sinter matrices for long-term preservation of lipid biomarkers in opaline sinter deposits analogous to Mars in El Tatio (Chile).

Author

Sánchez-García L, Lezcano MÁ, Carrizo D, Severino R, García-Villadangos M, Cady SL, Warren-Rhodes K, Cabrol NA, and Parro V

Subjects

Chile, Isotopes, Biomarkers, Lipids, Extraterrestrial Environment, Mars

Abstract

Subaerial hydrothermal systems are of great interest for paleobiology and astrobiology as plausible candidate environments to support the origin of life on Earth that offer a unique and interrelated atmosphere-hydrosphere-lithosphere interface. They harbor extensive sinter deposits of high preservation potential that are promising targets in the search for traces of possible extraterrestrial life on Hesperian Mars. However, long-term quality preservation is paramount for recognizing biosignatures in old samples and there are still significant gaps in our understanding of the impact and extent of taphonomy processes on life fingerprints. Here, we propose a study based on lipid biomarkers -highly resistant cell-membrane components- to investigate the effects of silicification on their preservation in hydrothermal opaline sinter. We explore the lipid biomarkers profile in three sinter deposits of up to ~3000 years from El Tatio, one of the best Martian analogs on Earth. The lipid profile in local living biofilms is used as a fresh counterpart of the fossil biomarkers in the centuries-old sinter deposits to qualitatively assess the taphonomy effects of silicification on the lipid's preservation. Despite the geological alteration, the preserved lipids retained a depleted stable-carbon isotopic fingerprint characteristic of biological sources, result highly relevant for astrobiology. The data allowed us to estimate for the first time the degradation rate of lipid biomarkers in sinter deposits from El Tatio, and to assess the time preservation framework of opaline silica. Auxiliary techniques of higher taxonomic resolution (DNA sequencing and metaproteomics) helped in the reconstruction of the paleobiology. The lipids were the best-preserved biomolecules, whereas the detection of DNA and proteins dropped considerably from 5 cm depth. These findings provide new insights into taphonomy processes affecting life fingerprints in hydrothermal deposits and serves as a useful baseline for assessing the time window for recovering unambiguous signs of past life on Earth and beyond., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023. Published by Elsevier B.V.)

Published

2023

32. Planetary Mapping Using Deep Learning: A Method to Evaluate Feature Identification Confidence Applied to Habitats in Mars-Analog Terrain.

Author

Phillips MS, Moersch JE, Cabrol NA, Candela A, Wettergreen D, Warren-Rhodes K, and Hinman NW

Subjects

Humans, Extraterrestrial Environment, Exobiology methods, Ecosystem, Deep Learning, Mars

Abstract

The goals of Mars exploration are evolving beyond describing environmental habitability at global and regional scales to targeting specific locations for biosignature detection, sample return, and eventual human exploration. An increase in the specificity of scientific goals-from follow the water to find the biosignatures -requires parallel developments in strategies that translate terrestrial Mars-analog research into confident identification of rover-explorable targets on Mars. Precisely how to integrate terrestrial, ground-based analyses with orbital data sets and transfer those lessons into rover-relevant search strategies for biosignatures on Mars remains an open challenge. Here, leveraging small Unmanned Aerial System (sUAS) technology and state-of-the-art fully convolutional neural networks for pixel-wise classification, we present an end-to-end methodology that applies Deep Learning to map geomorphologic units and quantify feature identification confidence. We used this method to assess the identification confidence of rover-explorable habitats in the Mars-analog Salar de Pajonales over a range of spatial resolutions and found that spatial resolutions two times better than are available from Mars would be necessary to identify habitats in this study at the 1-σ (85%) confidence level. The approach we present could be used to compare the identifiability of habitats across Mars-analog environments and focus Mars exploration from the scale of regional habitability to the scale of specific habitats. Our methods could also be adapted to map dome- and ridge-like features on the surface of Mars to further understand their origin and astrobiological potential.

Published

2023

33. Prokaryotic Community Structure and Metabolisms in Shallow Subsurface of Atacama Desert Playas and Alluvial Fans After Heavy Rains: Repairing and Preparing for Next Dry Period.

Author

Fernández-Martínez MÁ, Dos Santos Severino R, Moreno-Paz M, Gallardo-Carreño I, Blanco Y, Warren-Rhodes K, García-Villadangos M, Ruiz-Bermejo M, Barberán A, Wettergreen D, Cabrol N, and Parro V

Abstract

The Atacama Desert, the oldest and driest desert on Earth, displays significant rains only once per decade. To investigate how microbial communities take advantage of these sporadic wet events, we carried out a geomicrobiological study a few days after a heavy rain event in 2015. Different physicochemical and microbial community analyses were conducted on samples collected from playas and an alluvial fan from surface, 10, 20, 50, and 80 cm depth. Gravimetric moisture content peaks were measured in 10 and 20 cm depth samples (from 1.65 to 4.1% w/w maximum values) while, in general, main anions such as chloride, nitrate, and sulfate concentrations increased with depth, with maximum values of 13-1,125; 168-10,109; and 9,904-30,952 ppm, respectively. Small organic anions such as formate and acetate had maximum concentrations from 2.61 to 3.44 ppm and 6.73 to 28.75 ppm, respectively. Microbial diversity inferred from DNA analysis showed Actinobacteria and Alphaproteobacteria as the most abundant and widespread bacterial taxa among the samples, followed by Chloroflexi and Firmicutes at specific sites. Archaea were mainly dominated by Nitrososphaerales, Methanobacteria, with the detection of other groups such as Halobacteria. Metaproteomics showed a high and even distribution of proteins involved in primary metabolic processes such as energy production and biosynthetic pathways, and a limited but remarkable presence of proteins related to resistance to environmental stressors such as radiation, oxidation, or desiccation. The results indicated that extra humidity in the system allows the microbial community to repair, and prepare for the upcoming hyperarid period. Additionally, it supplies biomarkers to the medium whose preservation potential could be high under strong desiccation conditions and relevant for planetary exploration.

Published

2019

34. Microbial Biomarker Transition in High-Altitude Sinter Mounds From El Tatio (Chile) Through Different Stages of Hydrothermal Activity.

Author

Sanchez-Garcia L, Fernandez-Martinez MA, García-Villadangos M, Blanco Y, Cady SL, Hinman N, Bowden ME, Pointing SB, Lee KC, Warren-Rhodes K, Lacap-Bugler D, Cabrol NA, Parro V, and Carrizo D

Abstract

Geothermal springs support microbial communities at elevated temperatures in an ecosystem with high preservation potential that makes them interesting analogs for early evolution of the biogeosphere. The El Tatio geysers field in the Atacama Desert has astrobiological relevance due to the unique occurrence of geothermal features with steep hydrothermal gradients in an otherwise high altitude, hyper-arid environment. We present here results of our multidisciplinary field and molecular study of biogeochemical evidence for habitability and preservation in silica sinter at El Tatio . We sampled three morphologically similar geyser mounds characterized by differences in water activity ( i.e. , episodic liquid water, steam, and inactive geyser lacking hydrothermal activity). Multiple approaches were employed to determine (past and present) biological signatures and dominant metabolism. Lipid biomarkers indicated relative abundance of thermophiles (dicarboxylic acids) and sulfate reducing bacteria (branched carboxylic acids) in the sinter collected from the liquid water mound; photosynthetic microorganisms such as cyanobacteria (alkanes and isoprenoids) in the steam sinter mound; and archaea (squalane and crocetane) as well as purple sulfur bacteria (cyclopropyl acids) in the dry sinter from the inactive geyser. The three sinter structures preserved biosignatures representative of primary (thermophilic) and secondary (including endoliths and environmental contaminants) microbial communities. Sequencing of environmental 16S rRNA genes and immuno-assays generally corroborated the lipid-based microbial identification. The multiplex immunoassays and the compound-specific isotopic analysis of carboxylic acids, alkanols, and alkanes indicated that the principal microbial pathway for carbon fixation in the three sinter mounds was through the Calvin cycle, with a relative larger contribution of the reductive acetyl-CoA pathway in the dry system. Other inferred metabolic traits varied from the liquid mound (iron and sulfur chemistry), to the steam mound (nitrogen cycle), to the dry mound (perchlorate reduction). The combined results revealed different stages of colonization that reflect differences in the lifetime of the mounds, where primary communities dominated the biosignatures preserved in sinters from the still active geysers (liquid and steam mounds), in contrast to the surviving metabolisms and microbial communities at the end of lifetime of the inactive geothermal mound.

Published

2019

35. Constraints on the Metabolic Activity of Microorganisms in Atacama Surface Soils Inferred from Refractory Biomarkers: Implications for Martian Habitability and Biomarker Detection.

Author

Wilhelm MB, Davila AF, Parenteau MN, Jahnke LL, Abate M, Cooper G, Kelly ET, Parro García V, Villadangos MG, Blanco Y, Glass B, Wray JJ, Eigenbrode JL, Summons RE, and Warren-Rhodes K

Subjects

Bacteria isolation & purification, Biomarkers analysis, Biomarkers metabolism, Biomass, Chile, Extraterrestrial Environment, Bacteria metabolism, Desert Climate, Exobiology methods, Mars, Soil Microbiology

Abstract

Dryness is one of the main environmental challenges to microbial survival. Understanding the threshold of microbial tolerance to extreme dryness is relevant to better constrain the environmental limits of life on Earth and critically evaluate long-term habitability models of Mars. Biomolecular proxies for microbial adaptation and growth were measured in Mars-like hyperarid surface soils in the Atacama Desert that experience only a few millimeters of precipitation per decade, and in biologically active soils a few hundred kilometers away that experience two- to fivefold more precipitation. Diversity and abundance of lipids and other biomolecules decreased with increasing dryness. Cyclopropane fatty acids (CFAs), which are indicative of adaptive response to environmental stress and growth in bacteria, were only detected in the wetter surface soils. The ratio of trans to cis isomers of an unsaturated fatty acid, another bacterial stress indicator, decreased with increasingly dry conditions. Aspartic acid racemization ratios increased from 0.01 in the wetter soils to 0.1 in the driest soils, which is indicative of racemization rates comparable to de novo biosynthesis over long timescales (∼10,000 years). The content and integrity of stress proteins profiled by immunoassays were additional indicators that biomass in the driest soils is not recycled at significant levels. Together, our results point to minimal or no in situ microbial growth in the driest surface soils of the Atacama, and any metabolic activity is likely to be basal for cellular repair and maintenance only. Our data add to a growing body of evidence that the driest Atacama surface soils represent a threshold for long-term habitability (i.e., growth and reproduction). These results place constraints on the potential for extant life on the surface of Mars, which is 100-1000 times drier than the driest regions in the Atacama. Key Words: Atacama Desert-Dryness-Growth-Habitability-Biomarker-Mars. Astrobiology 18, 955-966.

Published

2018

36. Ultraviolet radiation-induced limitation to epilithic microbial growth in arid deserts--dosimetric experiments in the hyperarid core of the Atacama Desert.

Author

Cockell CS, McKay CP, Warren-Rhodes K, and Horneck G

Subjects

Bacillus subtilis cytology, Cyanobacteria cytology, Environment, Geologic Sediments, Geological Phenomena, Geology, Soil, Bacillus subtilis radiation effects, Cyanobacteria radiation effects, Desert Climate, Exobiology, Ultraviolet Rays

Abstract

Experiments were conducted during November 2003 in the dry core of the Atacama Desert, Yungay, Chile to test the hypothesis that UV radiation, in environments where liquid water is not available, and thus enzymatic repair of UV-induced damage is inhibited, can prevent epilithic colonization. Novel dosimeters made from the cryptoendolithic, desiccation and radiation-resistant cyanobacterium Chroococcidiopsis sp. isolated from the dry Negev desert, Israel, showed that monolayers of this organism were killed within one day. The diurnal profile of microbial loss of viability was investigated with dosimeters of Bacillus subtilis, which similarly showed cell death within one day. Soil grains obtained from south of Yungay where liquid water is more abundant and transported to the hyperarid core showed killing of indigenous vegetative organisms within one day. Gypsum and mineral grain coverings of 1mm were sufficient to prevent measurable UV-induced damage of Chroococcidiopsis and B. subtilis after 8d exposure. These results show that under extreme desiccation and an ambient UV flux the surface of rocks can potentially be rendered sterile, but that millimetre thick mineral coverings can protect organisms from UV-induced killing, consistent with the observed patterns of lithophytic colonization in the Atacama Desert. These data further show that UV radiation can be an important limiting factor in surface biological rock weathering in arid regions.

Published

2008

37. Community structure of free-floating filamentous cyanobacterial mats from the Wonder Lake geothermal springs in the Philippines.

Author

Lacap DC, Smith GJ, Warren-Rhodes K, and Pointing SB

Subjects

Cyanobacteria classification, Cyanobacteria genetics, DNA, Bacterial analysis, DNA, Ribosomal analysis, Hot Springs, Molecular Sequence Data, Philippines, Phylogeny, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Cyanobacteria growth & development, Ecosystem

Abstract

Cyanobacterial mats were characterized from pools of 45-60 degrees C in near-neutral pH, low-sulphide geothermal springs in the Philippines. Mat structure did not vary with temperature. All mats possessed highly ordered layers of airspaces at both the macroscopic and microscopic level, and these appear to be an adaptation to a free-floating growth habit. Upper mat layers supported biomass with elevated carotenoid:chlorophyll a ratios and an as yet uncharacterized waxy layer on the dorsal surface. Microscopic examination revealed mats comprised a single Fischerella morphotype, with abundant heterocysts throughout mats at all temperatures. Molecular analysis of mat community structure only partly matched morphological identification. All samples supported greater 16S rDNA-defined diversity than morphology suggested, with a progressive loss in the number of genotypes with increasing temperature. Fischerella-like sequences were recovered from mats occurring at all temperatures, but some mats also yielded Oscillatoria-like sequences, although corresponding phenotypes were not observed. Phylogenetic analysis revealed that Fischerella-like sequences were most closely affiliated with Fischerella major and the Oscillatoria-like sequences with Oscillatoria amphigranulata.

Published

2005

38. Halorubrum alkaliphilum sp. nov., a novel haloalkaliphile isolated from a soda lake in Xinjiang, China.

Author

Feng J, Zhou P, Zhou YG, Liu SJ, and Warren-Rhodes K

Subjects

Base Composition, China, DNA, Archaeal analysis, DNA, Ribosomal analysis, Genes, rRNA, Halobacteriaceae genetics, Halobacteriaceae isolation & purification, Halobacteriaceae physiology, Hydrogen-Ion Concentration, Molecular Sequence Data, Nucleic Acid Hybridization, Phylogeny, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Fresh Water microbiology, Halobacteriaceae classification, Sodium Chloride

Abstract

A novel haloalkaliphilic archaeon, strain DZ-1T, was isolated from a soda lake in Xinjiang, China. The taxonomy of strain DZ-1T was studied by polyphasic methods. According to 16S rRNA gene sequence similarity, strain DZ-1T was phylogenetically related to Halorubrum tibetense (97.5 %), Halorubrum vacuolatum (95.7 %) and Halorubrum saccharovorum (95.9 %). Strain DZ-1T was able to grow at 20-44 degrees C and was also physiologically different from the above-mentioned species with respect to assimilation of sugars and utilization of organic acids. The DNA G+C content of strain DZ-1T was 62.1 mol% (Tm). The DNA-DNA relatedness of strain DZ-1T to H. tibetense and H. vacuolatum was 22 and 13 %, respectively. It was concluded that strain DZ-1T represents a novel species of the genus Halorubrum, for which the name Halorubrum alkaliphilum (type strain, DZ-1T=AS 1.3528T=JCM 12358T) is proposed.

Published

2005

39. Marine ecosystem appropriation in the Indo-Pacific: a case study of the live reef fish food trade.

Author

Warren-Rhodes K, Sadovy Y, and Cesar H

Subjects

Animals, Anthozoa, Environmental Monitoring, Indian Ocean, Pacific Ocean, Population Dynamics, Conservation of Natural Resources, Ecosystem, Fisheries, Fishes

Abstract

Our ecological footprint analyses of coral reef fish fisheries and, in particular, the live reef fish food trade (FT), indicate many countries' current consumption exceeds estimated sustainable per capita global, regional and local coral reef production levels. Hong Kong appropriates 25% of SE Asia's annual reef fish production of 135 260-286 560 tonnes (t) through its FT demand, exceeding regional biocapacity by 8.3 times; reef fish fisheries demand out-paces sustainable production in the Indo-Pacific and SE Asia by 2.5 and 6 times. In contrast, most Pacific islands live within their own reef fisheries means with local demand at < 20% of total capacity in Oceania. The FT annually requisitions up to 40% of SE Asia's estimated reef fish and virtually all of its estimated grouper yields. Our results underscore the unsustainable nature of the FT and the urgent need for regional management and conservation of coral reef fisheries in the Indo-Pacific.

Published

2003