Redwood of the reef: growth and age of the giant barrel sponge Xestospongia muta in the Florida Keys - Marine Biology
- ️Pawlik, J. R.
- ️Fri Jun 20 2008
Akaike H (1973) Information theory and an extension of the maximum likelihood principle. In: Petrov BN, Csaki F (eds) Proceedings of the 2nd international symposium on information theory. Akademiai Kiado, Budapest, pp 267–281
Ayling AL (1983) Growth and regeneration rates in thinly encrusting Demospongiae from temperate waters. Biol Bull 165:343–352. doi:10.2307/1541200
Barthel D (1986) On the ecophysiology of the sponge Halichondria panacea in Kiel Bight. I. Substrate specificity, growth and reproduction. Mar Ecol Prog Ser 32:291–298. doi:10.3354/meps032291
Baskerville GL (1971) Use of logarithmic regression in the estimation of plant biomass. Can J Res 2:49–5. doi:10.1139/x72-009
von Bertalanffy L (1938) A quantitative theory of organic growth (inquires on growth laws II). Hum Biol 10:181–213
Beverton RJH, Holt SJ (1957) On the dynamics of exploited fish populations. Fisheries Investigations of the Ministry of Agriculture and Fisheries, Food in Great Britain (2. Sea Fish), 19. Fascimile reprint 1993, Fish and Fisheries Series, Number 11. Chapman and Hall, London
Blueweiss L, Fox H, Kudzma V, Nakashima D, Peters R, Sams S (1978) Relationships between body size and some life history parameters. Oecologia 37:257–272. doi:10.1007/BF00344996
Brey T (2001) Population dynamics in benthic invertebrates. A virtual handbook. Version 01.2. Alfred Wegener Institute for Polar and Marine Research, Germany. http://www.awi-bremerhaven.de/Benthic/Ecosystem/FoodWeb/Handbook/main.html. Accessed 26 March 2007
Buettner H (1996) Rubble mounds of sand tilefish Malacanthus plumieri (Bloch, 1787) and associated fishes in Colombia. Bull Mar Sci 58:248–260
Burnham KP, Anderson DR (2002) Model selection and multimodel inference: a practical information-theoretical approach. Springer, New York
Chanas B, Pawlik JR (1997) Variability in the chemical defense of the Caribbean reef sponge Xestospongia muta. In: Lessios HA, Macintyre IG (eds) Proceedings of the 8th international coral reef symposium, vol 2. Smithsonian Tropical Research Institute, Balboa, pp 1363–1368
Chiappone M, White A, Swanson DW, Miller SL (2002) Occurrence and biological impacts of fishing gear and other marine debris in the Florida Keys. Mar Pollut Bull 44:597–604. doi:10.1016/S0025-326X(01)00290-9
Chiappone M, Dienes H, Swanson DW, Miller SL (2005) Impacts of lost fishing gear on coral reef sessile invertebrates in the Florida Keys National Marine Sanctuary. Biol Conserv 121:221–230. doi:10.1016/j.biocon.2004.04.023
Cowart JD, Henkel TP, McMurray SE, Pawlik JR (2006) Sponge orange band (SOB): a pathogenic-like condition of the giant barrel sponge Xestospongia muta. Coral Reefs 25:513. doi:10.1007/s00338-006-0149-y
Dayton PK, Robilliard GA, Paine RT, Dayton LB (1974) Biological accommodation in the benthic community at McMurdo Sound, Antarctica. Ecol Monogr 44:105–128. doi:10.2307/1942321
Diaz MC, Rützler K (2001) Sponges: an essential component of Caribbean coral reefs. Bull Mar Sci 69:535–546
Diaz MC, Ward BB (1997) Sponge-mediated nitrification in tropical benthic communities. Mar Ecol Prog Ser 156:97–107. doi:10.3354/meps156097
Duckworth AR, Battershill CN (2001) Population dynamics and chemical ecology of New Zealand Demospongiae Latrunculia sp. nov. and Polymastia croceus (Poecilosclerida: Latrunculiidae: Polymastiidae). N Z J Mar Freshw Res 35:935–949
Duffy JE (1992) Host use patterns and demography in a guild of tropical sponge-dwelling shrimps. Mar Ecol Prog Ser 90:127–138. doi:10.3354/meps090127
Ebert TA (1980) Estimating parameters in a flexible growth equation, the Richards function. Can J Fish Aquat Sci 37:687–692. doi:10.1139/f80-086
Ebert TA (1999) Plant and animal populations: methods in demography. Academic Press, San Diego
Ebert TA, Dixon JD, Schroeter SC, Kalvass PE, Richmond NT, Bradbury WA et al (1999) Growth and mortality of red sea urchins Strongylocentrotus franciscanus across a latitudinal gradient. Mar Ecol Prog Ser 190:189–209. doi:10.3354/meps190189
Elvin DW (1976) Seasonal growth and reproduction of an intertidal sponge Haliclona permollis (Bowerbank). Biol Bull 151:108–125. doi:10.2307/1540709
Engel S, Pawlik JR (2005) Interactions among Florida sponges: I. Reef habitats. Mar Ecol Prog Ser 303:133–144. doi:10.3354/meps303133
Fell PE, Lewandrowski KB (1981) Population dynamics of the estuarine sponge, Halichondria sp., within a New England eelgrass community. J Exp Mar Biol Ecol 55:49–63. doi:10.1016/0022-0981(81)90092-7
Fromont J, Bergquist PR (1994) Reproductive biology of three sponge species of the genus Xestospongia (Porifera: Demospongiae: Petrosida) from the Great Barrier Reef. Coral Reefs 13:119–126. doi:10.1007/BF00300772
Frost TM, Williamson CE (1980) In situ determination of the effect of symbiotic algae on the growth of the fresh water sponge Spongilla lacustris. Ecology 61:1361–1370. doi:10.2307/1939045
Gammill ER (1997) Identification of coral reef sponges. Providence Marine Publishing, Inc, Tampa
Garrabou J, Zabala M (2001) Growth dynamics in four Mediterranean demosponges. Estuar Coast Shelf Sci 52:293–303. doi:10.1006/ecss.2000.0699
Gompertz B (1825) On the nature of the function expressive of human mortality, and on a new mode of determining the value of life contingencies. Philos Trans R Soc Lond Ser B 115:513–585
Goreau TJ, Hayes RL, Clark JW, Basla DJ, Robertson CN (1993) Elevated sea surface temperatures correlate with Caribbean coral reef bleaching. In: Geyer RA (ed) A global warming forum: scientific, economic and legal overview. CRC Press, Boca Raton, pp 225–255
Henkel TP, Pawlik JR (2005) Habitat use by sponge-dwelling brittlestars. Mar Biol (Berl) 146:301–313. doi:10.1007/s00227-004-1448-x
Henry L-A, Hart M (2005) Regeneration from injury and resource allocation in sponges and corals—a review. Int Rev Hydrobiol 90:125–158. doi:10.1002/iroh.200410759
Hill MS (1996) Symbiotic zooxanthellae enhance boring and growth rates of the tropical sponge Anthosigmella varians forma varians. Mar Biol (Berl) 125:649–654. doi:10.1007/BF00349246
Hoppe WF (1988) Growth, regeneration and predation in three species of large coral reef sponges. Mar Ecol Prog Ser 50:117–125. doi:10.3354/meps050117
HRIA (2006) Coast Redwood. Humboldt Redwoods Interpretive Association. http://www.humboldtredwoods.org/. Accessed 20 December 2007
Hudson JH, Anderson J, Franklin EC, Schittone J, Stratton A (2007) M/V Wellwood coral reef restoration monitoring report, monitoring events 2004–2006. Florida Keys National Marine Sanctuary Monroe County, Florida. Marine Sanctuaries Conservation Series NMSP-07-02. U.S. Department of Commerce, National Oceanic and Atmospheric Administration, National Marine Sanctuary Program, Silver Spring, 50pp
Humann P (1992) Reef creature identification. New World Pub, Jacksonville
Jaap WC (2000) Coral reef restoration. Ecol Eng 15:345–364. doi:10.1016/S0925-8574(00)00085-9
Johnson MF (1979) Recruitment, growth, mortality and seasonal variations in the calcareous sponge Clathrina coriacea (Montagu) and C. blanca (Miklucho-Maclay) from Santa Catalina Island, California. In: Lévi C, Boury-Esnault N (eds) Biologie des Spongiaires. Colloques Internationaux du CNRS 291, Paris, pp 325–334
Leichter JJ, Miller SL (1999) Predicting high frequency upwelling: spatial and temporal patterns of temperature anomalies on a Florida coral reef. Cont Shelf Res 19:911–928. doi:10.1016/S0278-4343(99)00004-7
Lesser MP (2006) Benthic-pelagic coupling on coral reefs: feeding and growth of Caribbean sponges. J Exp Mar Biol Ecol 328:277–288. doi:10.1016/j.jembe.2005.07.010
Leys SP, Lauzon NRJ (1998) Hexactinellid sponge ecology: growth rates and seasonality in deep water sponges. J Exp Mar Biol Ecol 230:111–129. doi:10.1016/S0022-0981(98)00088-4
Lindquist N, Hay ME (1996) Palatability and chemical defense of marine invertebrate larvae. Ecol Monogr 66:431–450. doi:10.2307/2963489
López-Legentil S, Song B, McMurray SE, Pawlik JR (2008) Bleaching and stress in coral reef ecosystems: hsp70 expression by the giant barrel sponge Xestospongia muta. Mol Ecol 17:1840–1849
McArdle BH (1988) The structural relationship: regression in biology. Can J Zool 66:2329–2339
McMurray SE, Pawlik JR (2008) A novel technique for the reattachment of large coral reef sponges. Restoration Ecol (in press)
Nagelkerken I, Aerts L, Pors L (2000) Barrel sponge bows out. Reef Encounter 28:14–15
NOAA (1997) NOAA gears up for reef restoration at Looe Key: university agrees to $3.9 million settlement for damage in Florida Keys Sanctuary. http://www.publicaffairs.noaa.gov/pr97/nov97/noaa97-r423.html
Pauly D (1981) The relationships between gill surface area and growth performance in fish: a generalization of von Bertalanffy’s theory of growth. Meeresforsch 28:251–282
Peters RH (1983) The ecological implications of body size. Cambridge University Press, Cambridge
Pile AJ, Patterson MR, Savarese M, Chernykh VI, Fialkov VA (1997) Trophic effects of sponge feeding within Lake Baikal’s littoral zone. 2. Sponge abundance, diet, feeding efficiency, and carbon flux. Limnol Oceanogr 42:178–184
Precht WF (2006) Coral reef restoration handbook. CRC Press, Boca Raton
Reiswig HM (1971) In situ pumping activities of tropical Demospongiae. Mar Biol (Berl) 9:38–50. doi:10.1007/BF00348816
Reiswig HM (1973) Population dynamics of three Jamaican Demospongiae. Bull Mar Sci 23:191–226
Reiswig HM (1975) The aquiferous systems of three marine Demospongiae. J Morphol 145:493–502. doi:10.1002/jmor.1051450407
Richards FJ (1959) A flexible growth function for empirical use. J Exp Bot 10:290–300. doi:10.1093/jxb/10.2.290
Ricker WE (1973) Linear regressions in fishery research. J Fish Res Board Can 30:409–434
Ritson-Williams R, Becerro MA, Paul VJ (2005) Spawning of the giant barrel sponge Xestospongia muta in Belize. Coral Reefs 24:160. doi:10.1007/s00338-004-0460-4
Rogers-Bennett L, Rogers DW, Bennett WA, Ebert TA (2003) Modeling red sea urchin (Strongylocentrotus franciscanus) growth using six growth functions. Fish Bull (Wash DC) 101:614–626
Rützler K (1985) Associations between Caribbean sponges and photosynthetic organisms. In: Rützler K (ed) New perspectives in sponge biology. Smithsonian Institution Press, Washington DC, pp 455–466
Schmahl GP (1999) Recovery and growth of the giant barrel sponge (Xestospongia muta) following physical injury from a vessel grounding in the Florida Keys. Mem Queensl Mus 44:532
Schmidt-Nielson K (1974) Scaling in biology: the consequences of size. J Exp Zool 194:287–307. doi:10.1002/jez.1401940120
Schone BR, Fiebig J, Pfeiffer M, Gleb R, Hickson J, Johnson A et al (2005) Climate records from a bivalved Methuselah (Arctica islandica, Mollusca; Iceland). Palaeogeogr Palaeoclimatol Palaeoecol 228:130–14. doi:10.1016/j.palaeo.2005.03.049
Sebens KP (1987) The ecology of indeterminate growth in animals. Annu Rev Ecol Syst 18:371–407. doi:10.1146/annurev.es.18.110187.002103
Simpson TL (1984) The cell biology of sponges. Springer, New York
Sokal RR, Rohlf FJ (1995) Biometry: the principles and practice of statistics in biological research, 3rd edn. W. H. Freeman and Co, New York
Sprugel D (1983) Correcting for bias in log-transformed allometric equations. Ecology 64:209–210. doi:10.2307/1937343
Suchanek TH, Carpenter RC, Witman JD, Harvell CD (1985) Sponges as important space competitors in deep Caribbean coral reef communities. In: Reaka ML (ed) The ecology of deep and shallow coral reefs, symposia series for undersea research 3(1), NOAA/NURP, Rockville, pp 55–59
Tanaka K (2002) Growth dynamics and mortality of the intertidal encrusting sponge Halichondria okadai (Demospongiae, Halichondrida). Mar Biol (Berl) 140:383–389. doi:10.1007/s002270100703
Tanaka M (1982) A new growth curve which expresses infinitive increase. Pub Amakusa Mar Biol Lab Kyushu Univ 6:167–177
Tanaka M (1988) Eco-physiological meaning of parameters of ALOG growth curve. Pub Amakusa Mar Biol Lab Kyushu Univ 9:103–106
Targett NM, Schmahl GP (1984) Chemical ecology and distribution of sponges in the Salt River Canyon, St. Croix, U.S.V.I. NOAA Tech Mem OAR NURP-1
Thacker R (2005) Impacts of shading on sponge-cyanobacteria symbioses: a comparison between host-specific and generalist associations. Integr Comp Biol 45:369–376. doi:10.1093/icb/45.2.369
Trussell GC (1997) Phenotypic plasticity in the foot size of an intertidal snail. Ecology 8:1033–1048
Trussell GC, Lesser MP, Patterson MR, Genovese SJ (2006) Depth-specific differences in growth of the reef sponge Callyspongia vaginalis: role of bottom-up effects. Mar Ecol Prog Ser 323:149–158. doi:10.3354/meps323149
Turon X, Tarjuelo I, Uriz MJ (1998) Growth dynamics and mortality of the encrusting sponge Crambe crambe (Poecilosclerida) in contrasting habitats: correlation with population structure and investment in defence. Funct Ecol 12:631–639. doi:10.1046/j.1365-2435.1998.00225.x
Walford LA (1946) A new graphic method of describing the growth of animals. Biol Bull 90:141–147. doi:10.2307/1538217
Walters KD, Pawlik JR (2005) Is there a trade off between wound-healing and chemical defenses among Caribbean reef sponges? Integr Comp Biol 45:352–358. doi:10.1093/icb/45.2.352
Warton DI, Wright IJ, Falster DS, Westoby M (2006) Bivariate line-fitting methods for allometry. Biol Rev Camb Philos Soc 81:259–291. doi:10.1017/S1464793106007007
Webster NS (2007) Sponge disease: a global threat? Environ Microbiol 9:1363–1375. doi:10.1111/j.1462-2920.2007.01303.x
Werner EE, Gilliam JF (1984) The ontogenetic niche and species interactions in size-structured populations. Annu Rev Ecol Syst 15:393–425. doi:10.1146/annurev.es.15.110184.002141
Wilkinson CR, Cheshire AC (1988) Growth rate of Jamaican coral reef sponges after Hurricane Allen. Biol Bull 175:175–179. doi:10.2307/1541905
Winsor CP (1932) The Gompertz curve as a new growth curve. Proc Natl Acad Sci USA 18:1–8. doi:10.1073/pnas.18.1.1
Wulff JL (1985) Patterns and processes of size change in Caribbean Demosponges of branching morphology. In: Rützler K (ed) New perspectives in sponge biology. Smithsonian Institution Press, Washington, pp 425–435
Zea S (1993) Cover of sponges and other sessile organisms in rocky and coral reef habitats of Santa Marta, Colombian Caribbean Sea. Caribb J Sci 29:75–78