Silvia Maciá

Silvia Maciá (born 1972) is an American marine biologist and professor of biology at Barry University in Miami Shores, FL. Courses she has taught include marine biology, oceanography, tropical marine ecosystems, ecology, environmental science and botany.

Silvia Maciá
Born1972 (age 4849)
Miami, FL
OccupationMarine biologist, Professor of Biology
Spouse(s)Michael Robinson
Academic background
EducationBachelor of Science in Marine Science and Biology, PhD in Marine Biology
Alma materUniversity of Miami Rosenstiel School of Marine and Atmospheric Science
ThesisDissertation research: The effects of sea urchin grazing and drift algal blooms on a subtropical seagrass bed community (1999)
Academic work
DisciplineMarine Science and Biology, Oceanography, Ecology, Environmental Science, Botany
Sub-disciplineResearch on pipefish mating behavior, seagrass community ecology, coral reef grazing ecology, seagrass restoration
Websitewww.barry.edu/biology/faculty/macia.html

Her research interests include pipefish mating behavior, seagrass community ecology, coral reef grazing ecology and seagrass restoration. Her research involves both laboratory and field work.[1]

Maciá is perhaps best noted for her discovery that Caribbean reef squid (Sepioteuthis sepioidea) can fly. She and her biologist husband Michael Robinson were boating on the north coast of Jamaica when she spotted something fly out of the water. She initially thought they were flying fish but after watching for a few seconds, she realized they were squid.[2]

Journal articles

  • Maciá, S, MP Robinson (2012) Reproductive pattern in the caridean shrimp Gnathophylloides mineri Schmitt (Gnathophyllidae), a symbiont of sea urchins. J. Crustacean Biol. 32: 727-732.
  • Maciá, S, MP Robinson (2009) Why be cryptic? Choice of host urchin is not based on camouflage in the caridean shrimp Gnathophylloides mineri. Acta Ethologica 12:105-113.
  • Maciá, S. and MP Robinson (2009) Growth rates of the tropical sea urchins Tripneustes ventricosus and Lytechinus variegatus based on natural recruitment events. Caribb. J. Sci. 45(1): 64-68
  • Maciá, S, MP Robinson (2008) Habitat-dependent growth in a Caribbean sea urchin Tripneustes ventricosus: the importance of food type. Helgoland Mar. Res. 62(4): 303-308.
  • Maciá, S, MP Robinson, A Nalevanko (2007) Experimental dispersal of recovering Diadema antillarum increases grazing intensity and reduces macroalgal abundance on a coral reef. Mar. Ecol. Prog. Ser. 348: 173-182.
  • Maciá, S, MP Robinson (2005) Effects of habitat heterogeneity in seagrass beds on grazing patterns of parrotfishes. Mar. Ecol. Prog. Ser. 303: 113-121.
  • Maciá, S, MP Robinson, P Craze, R Dalton, and JD Thomas (2004) New observations on airborne jet propulsion (flight) in squid with a review of previous reports. J. Molluscan Studies 70(3): 309-311.
  • Prince, JS, WG LeBlanc, and S Maciá (2004) Design and analysis of multiple choice feeding preference data. Oecologia 138(1): 1-4.
  • Lirman, D. B Orlando, S Maciá, D Manzello, L Kaufman, P Biber and T Jones (2003) Coral communities of Biscayne Bay, Florida and adjacent offshore areas: Diversity, abundance, distribution, and environmental correlates. Aq. Conserv. 13: 121-135.
  • Irlandi, E, B Orlando, S Maciá, P Biber, T Jones, L Kaufman, D Lirman, and E Patterson (2002) The influence of freshwater runoff on biomass, morphometrics, and production of Thalassia testudinum. Aq. Bot. 72(1): 67-78.
  • Maciá, S (2000) The role of sea urchin grazing and drift algal blooms in the community ecology of a subtropical seagrass bed. J. Exp. Mar. Biol. Ecol. 246: 53-67.
  • Maciá, S and D Lirman (1999) Destruction of Florida Bay seagrasses by a grazing front of sea urchins. Bull. Mar. Sci. 65: 593-601.

References

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