Grosholz E, Ruiz G. 2002. Management plan for the European green crab. Green crab control committee :1–55.
Fox EA, Heath LS, Chen QF, Daoud AM. 1992. Practical minimal perfect hash functions for large databases. CACM 35(1):105–121.
Tringali MD, TM Bert. 1998. Risk to genetic effective population size should be an important consideration in fish stock-enhancement programs. Bulletin of Marine Science 62(2):641–659.
Audet D, Miron G, Moriyasu M. 2008. Biological characteristics of a newly established green crab (Carcinus maenas) population in the Southern Gulf of St. Lawrence, Canada. Journal of Shellfish Research 27:427–441.
Crothers JH. 1968. The biology of the shore crab Carcinus maenas (L.) 2. The life of the adult crab. Field Studies 2:579–614.
Broughton RE, LB Stewart, JR Gold. 2002. Microsatellite variation suggests substantial gene flow between king mackerel (Scomberomorus cavalla) in the western Atlantic Ocean and Gulf of Mexico. Fisheries Research 54:305–316.
deRivera CE, Hitchcock NG, Teck SJ, Steves BP, Hines AH, Ruiz GM. 2006. Larval development rate predicts range expansion of an introduced crab. Marine Biology 150:1275–1288.
Boustany AM, CA Reeb, BA Block. 2008. Mitochondrial DNA and electronic tracking reveal population structure of Atlantic Bluefin tuna (Thunnus thynnus). Marine Biology 156:13–24.
Buonaccorsi VP, E Starkey, JE Graves. 2001. Mitochondrial and nuclear DNA analysis of population subdivision among young-of-the-year Spanish mackerel (Scomberomorus maculatus) from the western Atlantic and Gulf of Mexico. Marine Biology 138:37–45.
Kalman RE. 1960. A new approach to linear filtering and prediction problems. Journal of Basic Engineering 82(1):35–undefined.
de la Hoz E, Lopez-Carmona MA, Klein M, Marsa-Maestre I. 2014. Alternative social welfare definitions for multiparty negotiation protocols.. Novel Insights in Agent-based Complex Automated Negotiation, Studies in Computational Intelligence 535:23–41.
Grosholz E. 1996. Predicting the impact of introduced marine species: Lessons from the multiple invasions of the European green crab Carcinus maenas. Biological Conservation 78:59–66.
Willard DE. 1984. New trie data structures which support very fast search operations. Journal of Computer and System Sciences 28(3):379–394.
Bryan E, Beal B. 2015. Interactions between the invasive Eruopean green crab, Carcinus maenas (L), and juveniles of the soft-shell clam, Mya arenaria L., in eastern Maine, USA. Journal of Experimental Marine Biology and Ecology 462:62–73.
Baeta A, Cabral HN, Neto JM, Marques JC, Pardal MÂ. 2005. Biology, population dynamics and secondary production of the green crab Carcinus maenas (L.) in a temperate estuary. Estuarine and Coastal Shelf Science 65:43–52.
Willard DE. 1984. Log-logarithmic worst-case range queries are possible in space Θ(n). Information Processing Letters 17:81–84.
Bowen BW, JC Avise. 1990. Genetic structure of Atlantic and Gulf of Mexico populations of sea bass, menhaden, and sturgeon: influence of zoogeographic factors and life-history patterns. Marine Biology 107:371–381.
Garber AF, MD Tringali, KC Stuck. 2004. Population structure and variation in red snapper (Lutjanus campechanus) from the Gulf of Mexico and Atlantic Coast of Florida as determined from mitochondrial DNA control regional sequence. Marine Biotechnology 6:175–185.
van Emde Boas P. 1977. Preserving order in a forest in less than logarithmic time and linear space. Information Processing Letters 6:80–82.
Dietzfelbinger M, Karlin A, Mehlhorn K, Meyer auf der Heide F, Rohnert H, Tarjan RE. 1994. Dynamic perfect hashing: upper and lower bounds. SIAM Journal on Computing 23:738–761.
Kosko B. 1988. Bidirectional associative memories.. IEEE Transactions on Systems, Man, and Cybernetics 18(1):49–60.
Rumelhart D, Hinton G, Williams R. 1986. Learning representations by back-propagating errors. Nature 323:533–536.
Berrill M. 1982. The life cycle of the green crab Carcinus maenas at the northern end of its range. Journal of Crustacean Biology 2:31–39.
Chang E, Mykles D. 2011. Regulation of crustacean molting: A review and our persepectives. General and Comparative Endochrinology 172(3):323–330.
League-Pike P, Shulman M. 2009. Intraguild Predators: Behavioral Changes and Mortality of the Green Crab (Carcinus maenas) during Interactions with the American Lobster (Homarus americanus) and Jonah Crab (Cancer borealis). Journal of Crustacean Biology 29(3):350–355.
Lyons LJ, O’Riordan RM, Cross TF, Culloty SC. 2012. Reproductive biology of the shore crab Carcinus maenas (Decapoda, Portunidae): a macroscopic and histological view.. Invertebrate Reproduction and Development 56:144–156.
Poirier LA, Mohan J, Speare R, Davidson J, Quijón PA, St-Hilaire S. 2016. Moulting synchrony in green crabs (Carcinus maenas) from Prince Edward Island, Canada.. Marine Biology Research 12:1–9.
Cosham J, Beazley K, McCarthy C. 2016. Environmental factors influencing local distributions of European green crab (Carcinus maenas) for modeling and management applications. Environmental Reviews 24:244–252.
Duncombe L. 2014. Evaluating trapping as a method to control the European green crab, Carcinus maenas, population at Pipestem Inlet, British Columbia, Canada. Master’s thesis, University of Alberta
Gehrels HB. 2016. A study of green crab (carcinus maenas) interactions, cannibalism, and a first approach to model the effects of harvesting on its populations. Master’s thesis, University of Prince Edward Island
Dening G. 1994. Mr. Bligh's Bad Language: Passion, Power and Theatre on the Bounty. Cambridge University Press
Dunn JC. 1973. A fuzzy relative of the ISODATA process and its use in detecting compact well-separated clusters. Cybernetics and Systems 3:32–57.
Johnson T, Beard K, Brady D, Byron C, Cleaver C, Duffy K, Keeney N, Kimble M, Miller M, Moeykens S, Teisl M, van Walsum G, Yuan J. 2019. A Social-Ecological System Framework for Marine Aquaculture Research. Sustainability 11 (9):2522–undefined.
Alvarado-Bremer JR, J Vinas, J Mejuto, B Ely, C Pla. 2005. Comparative phylogeography of Atlantic Bluefin tuna and swordfish: the combined effects of vicariance, secondary contact, introgression, and population expansion on the regional phylogenies of two highly migratory pelagic fishes. Molecular Phylogenetics and Evolution 36:169–187.
Bagley MJ, DG Linquist, JB Geller. 1999. Microsatellite variation, effective population size, and population genetic structure of vermilion snapper, Rhomboplites auroruben, off the southeastern USA. Marine Biology 134:609–620.
Bowen BW, AL Bass, A Muss, J Carlin, DR Robertson. 2006. Phylogeography of two Atlantic squirrelfishes (Family Holocentridae): exploring links between pelagic larval duration and population connectivity. Marine Biology 149:899–913.
Cunningham CW, TM Collins. 1998. Beyond area relationship: extinction and recolonization in molecular marine biogeography. Molecular Approaches to Ecology and Evolution
Gold JR, LR Richardson, C Furman, F Sun. 1994. Mitochondrial DNA diversity and population structure in marine fish species from the Gulf of Mexico. Canadian Journal of Fisheries and Aquatic Sciences 51(S.1):205–214.
Grosberg R, CW Cunningham. 2001. Genetic structure in the sea: from populations to communities. Marine Community Ecology :61–84.
McMillen-Jackson AL, TM Bert, H Cruz-Lopez, S Seyoum, T Orsoy, RE Crabtree. 2005. Molecular genetic variation in tarpon (Megalops atlanticus Valenciennes) in the northern Atlantic Ocean. Marine Biology 146:253–261.