93 / 100
MESOPHOTIC CORAL ECOSYSTEMS – A LIFEBOAT FOR CORAL REEFS?
93
Loya, Y. (1976a). Recolonization of Red Sea corals affected by natural
catastrophes and man-made perturbations.
Ecology
, vol. 57, pp.
278-289.
Loya, Y. (2004). The coral reefs of Eilat-past, present and future: three
decades of coral community structure studies. In: Coral health
and disease. Springer Berlin Heidelberg, pp. 1-34.
Loya, Y. (2007). How to influence environmental decision makers?
The case of Eilat (Red Sea) coral reefs.
Journal of Experimental
Marine Biology and Ecology
, vol. 344, No. 1, pp. 35-53.
Loya, Y., Eyal, G., Treibitz, T., Lesser, M.P. and Appeldoorn, R.
(2016). Theme section on mesophotic coral ecosystems: advances
in knowledge and future perspectives. Coral Reefs, vol. 35, In
Press, DOI 10.1007/s00338-016-1410-7.
Loya, Y. and Rinkevich, B. (1980). Effects of oil pollution on coral
reef communities.
Marine Ecology Progress Series
, vol. 3, No. 16,
pp. 167-180.
Luck, D.G., Forsman, Z.H., Toonen, R.J., Leicht, S.J. and Kahng, S.E.
(2013). Polyphyly and hidden species among Hawaii’s dominant
mesophotic coral genera,
Leptoseris
and
Pavona
(Scleractinia:
Agariciidae).
PeerJ
, vol. 1, e132.
Ludt, W.B., Bernal, M.A., Bowen, B.W. and Rocha, L.A. (2012).
Living in the past: phylogeography and population histories of
Indo-Pacific wrasses (genus
Halichoeres
) in shallow lagoons versus
outer reef slopes.
PLoS ONE
, vol. 7, No. 6, e38042.
Macintyre, I G. (1967). Submerged coral reefs, west coast of
Barbados, West Indies.
Canadian Journal of Earth Sciences
, vol. 4,
No. 3, pp. 461-474.
Macintyre, I.G. (1972). Submerged reefs of eastern Caribbean.
AAPG
Bulletin
, vol. 56, No. 4, pp. 720-738.
Macintyre, I.G., Rutzler, K., Norris, J.N., Smith, K.P., Cairns, S.D.,
Bucher, K.E. and Steneck, R.S. (1991). An early Holocene reef in the
western Atlantic: submersible investigations of a deep relict reef off
the west coast of Barbados, W.I.
Coral Reefs
, vol. 10, pp. 167-174.
Madin, J.S. and Madin, E.M.P. (2015). The full extent of the global
coral reef crisis.
Conservation Biology
, In press, DOI: 10.1111/
cobi.12564.
Mah, C.L. (2003).
Astrosarkus idipi
, a new Indo-Pacific genus and
species of Oreasteridae (Valvatida: Asteroidea) displaying extreme
endoskeletal reduction.
Bulletin of Marine Science
, vol. 73, No. 3,
pp. 685-698.
Mah, C.L. (2005). A phylogeny of
Iconaster
and
Glyphodiscus
(Echinodermata, Asteroidea, Valvatida, Goniasteridae) with
descriptions of four new species.
Zoosystema
, vol. 27, No. 1, pp.
137-161.
Maier, C., Watremez, P., Taviani, M., Weinbauer, M.G. and Gattuso,
J.P. (2012). Calcification rates and the effect of ocean acidification
on Mediterranean cold-water corals.
Proceedings of the Royal
Society B-Biological Sciences
, vol. 279, No. 1734, pp. 1716-1723.
Manasrah, R.S., Al-Horani, F.A., Rasheed, M.Y., Al-Rousan, S.A. and
Khalaf, M.A. (2006). Patterns of summer vertical and horizontal
currents in coastal waters of the northern Gulf of Aqaba, Red Sea.
Estuarine, Coastal and Shelf Science
, vol. 69, pp. 567-579.
Maragos, J.E. and Jokiel, P. (1986). Reef corals of Johnston Atoll: one
of the world’s most isolated reefs.
Coral Reefs
, vol. 4, pp. 141-150.
Maynard, J., van Hooidonk, R., Eakin, C.M., Puotinen, M., Garren,
M., Williams, G., Heron, S.F., Lamb, J., Weil, E., Willis, B. and
Harvell, C.D. (2015). Projections of climate conditions that
increase coral disease susceptibility and pathogen abundance and
virulence.
Nature Climate Change
, vol. 5, pp. 688-694.
Menza, C., Kendall, M. and Hile, S. (2008). The deeper we go the less
we know.
Revista De Biologia Tropical
, vol. 56, pp. 11-24.
Merrifield, M.A. and Holloway, P.E. (2002). Model estimates of
M2 internal tide energetics at the Hawaiian Ridge.
Journal of
Geophysical Research: Oceans
, vol. 107, pp. 5-1−5-12.
Merrifield, M.A., Holloway, P.E. and Johnston, T. (2001). The
generation of internal tides at the Hawaiian Ridge.
Geophysical
Research Letters
, vol. 28, pp. 559-562.
Miller, J., Muller, E., Rogers, C., Waara, R., Atkinson, A., Whelan,
K.R.T., Patterson, M. andWitcher. B. (2009). Coral disease following
massive bleaching in 2005 causes 60% decline in coral cover on reefs
in the US Virgin Islands.
Coral Reefs
, vol. 28, pp. 925-937.
Montaggioni, L.F. (2005). History of Indo-Pacific coral reef systems
since the last glaciation: development patterns and controlling
factors.
Earth Science Reviews
, vol. 71, pp. 1-75.
Morelock, J., Schneiderman, N. and Bryant, W. (1977). Shelf reefs,
southwestern Puerto Rico.
Studies in Geology
, vol. 4, pp. 17-25.
Morris, J.A., Akins, J.L., Barse, A., Cerino, D., Freshwater, D.W.,
Green, S.J., Muñoz, R.C., Paris, C. and Whitfield, P.E. (2009).
Biology and ecology of the invasive lionfishes,
Pterois miles
and
Pterois volitans
. In: Proceedings of the Gulf and Caribbean
Fisheries Institute, vol. 61, pp. 409-414.
Muir, P., Wallace, C., Bridge, T. and Bongaerts, P. (2015). Diverse
staghorn coral fauna on the mesophotic reefs of northeast
Australia.
PLoS ONE
, vol. 10, No. 2, e0117933.
Mumby, P.J. and Steneck, R.S. (2008). Coral reef management and
conservation in light of rapidly evolving ecological paradigms.
Trends in Ecology and Evolution
, vol. 23, pp. 555-563.
Munday, E.S., Tissot, B.N., Heidel, J.R. and Miller-Morgan, T.
(2015). The effects of venting and decompression on Yellow Tang
(
Zebrasoma flavescens
) in the marine ornamental aquarium fish
trade.
PeerJ
, vol. 3, e756.
Munday, P.L., Cheal, A.J., Dixson, D.L., Rummer, J.L. and Fabricius,
K.E. (2014). Behavioural impairment in reef fishes caused by ocean
acidification at CO
2
seeps.
Nature Climate Change
, vol. 4, pp. 487-492.
Muscatine, L. (1990). The role of symbiotic algae in carbon and
energy flux in reef corals. In: Dubinsky, Z. (ed.).
Ecosystems of the
World 25: Coral reefs,
Elsevier, Amsterdam, pp. 75-87.
Myers, R.F. (1993). Guam’s small-boat-based fisheries.
Marine
Fisheries Review
, vol. 55, No. 2, pp. 117-128.
Myers, R.F. (1999). Micronesian reef fishes, 3rd ed. Coral Graphics,
Barrigada, 330 p.
Nakao, Y. and Fusetani, N. (2010). Marine invertebrates: sponges. In:
Liu, H.W. and Mander, L. (eds.). Comprehensive Natural Products
II. Elsevier, Oxford, pp. 327-362.
National Monitoring Program [NMP]. (2013). Israel’s National
Monitoring of the Gulf of Eilat, scientific reports and online data
http://www.iui-eilat.ac.il/NMP/Default.aspx[Acessed October 2015].
National Oceanic and Atmospheric Administration [NOAA].
(2014). Endangered and Threatened wildlife and plants: final
listing determinations on proposal to list 66 reef-building coral
species and to reclassify Elkhorn and Staghorn corals. 1104 p.
Neal, B.P., Condit, C., Liu, G., dos Santos, S., Kahru, M., Mitchell,
B.G. and Kline, D.I. (2014). When depth is no refuge: cumulative
thermal stress increases with depth in Bocas del Toro, Panama.
Coral Reefs
, vol. 33, No. 1, pp. 193–205.
Nemeth, R.S. (2005). Population characteristics of a recovering
US Virgin Islands red hind spawning aggregation following
protection.
Marine Ecology Progress Series
, vol. 286, pp. 81-97.
Nemeth, R., Blondeau, J., Herzlieb, S. and Kadison, E. (2007). Spatial
and temporal patterns of movement and migration at spawning
aggregations of red hind,
Epinephelus guttatus
, in the U.S. Virgin
Islands.
Environmental Biology of Fishes
, vol. 78, pp. 365-381.
Newman, D.J. and Cragg, G.M. (2007). Natural products as sources
of new drugs over the last 25 years.
Journal of Natural Products
,
vol. 70, No. 3, pp. 461-477.
Newman, D.J. and Cragg, G.M. (2012). Natural products as sources
of new drugs over the 30 years from 1981 to 2010.
Journal of
Natural Products
, vol. 75, No. 3, pp. 311-335.
Nir, O., Gruber, D., Einbinder, S., Kark, S. and Tchernov, D. (2011).
Changes in scleractinian coral
Seriatopora hystrix
morphology and
its endocellular
Symbiodinium
characteristics along a bathymetric
gradient from shallow to mesophotic reef.
Coral Reefs
, vol. 30, No.
4, pp. 1089-1100.
Nir, O., Gruber, D.F., Shemesh, E., Glasser, E. and Tchernov, D. (2014)
Seasonal mesophotic coral bleaching of
Stylophora pistillata
in the
Northern Red Sea.
PLoS ONE
,
vol. 9, No. 1, e84968.