This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Beekey, M. A., J. H. Mattei, and B. J. Pierce. 2013. Horseshoe crab eggs: A rare resource for predators in Long Island Sound. J. Exp. Mar. Biol. Ecol. 439: 152–159.BeekeyM. A.MatteiJ. H.PierceB. J.2013Horseshoe crab eggs: A rare resource for predators in Long Island SoundJ. Exp. Mar. Biol. Ecol.439152159Search in Google Scholar
Botton, M. L., C. P. Colon, M. Sclafani, R. E. Loveland, S. Elbin, and K. Parkins. 2021. The relationships between spawning horseshoe crabs and egg densities: Recommendations for the assessment of populations and habitat suitability. Aquatic Conserv.: Mar. Freshw. Ecosyst. 31: 1570–1583.BottonM. L.ColonC. P.SclafaniM.LovelandR. E.ElbinS.ParkinsK.2021The relationships between spawning horseshoe crabs and egg densities: Recommendations for the assessment of populations and habitat suitabilityAquatic Conserv.: Mar. Freshw. Ecosyst.3115701583Search in Google Scholar
_______, R. E. Loveland, and T. R. Jacobsen. 1994. Site selection by migratory shorebirds in Delaware Bay, and its relationship to beach characteristics and the abundance of horseshoe crab (Limulus polyphemus) eggs. Auk, 111: 605–611. https://doi.org/10.1093/auk/111.3.605BottonM. L.LovelandR. E.JacobsenT. R.1994Site selection by migratory shorebirds in Delaware Bay, and its relationship to beach characteristics and the abundance of horseshoe crab (Limulus polyphemus) eggsAuk111605611https://doi.org/10.1093/auk/111.3.605Search in Google Scholar
Chacón Abarca, S., V. Chávez, R. Silva, M.L. Martínez, and G. Anfuso. 2021. Understanding the dynamics of a coastal lagoon: Drivers, exchanges, state of the environment, consequences and responses. Geosciences, 11(8), p.301.Chacón AbarcaS.ChávezV.SilvaR.MartínezM.L.AnfusoG.2021Understanding the dynamics of a coastal lagoon: Drivers, exchanges, state of the environment, consequences and responsesGeosciences118301Search in Google Scholar
Dunne, P., D. Sibley, C. Sutton, and W. Wander. 1982. Aerial surveys in Delaware Bay: confirming an enormous spring staging area for shorebirds. Wader Study Group Bulletin, 35: 32–33.DunneP.SibleyD.SuttonC.WanderW.1982Aerial surveys in Delaware Bay: confirming an enormous spring staging area for shorebirdsWader Study Group Bulletin353233Search in Google Scholar
Hallerman, E. M., D. N. Hata, M. S. Eackles, and T. L. King. 2022. Population genetics and movement show metapopulation dynamics of mid-Atlantic region horseshoe crabs. Pp. 41–57 in Tanacredi, J.T., et al. (eds.) International Horseshoe Crab Conservation and Research Efforts: 2007–2020. Springer, Cham. https://doi.org/10.1007/978-3-030-82315-3_4HallermanE. M.HataD. N.EacklesM. S.KingT. L.2022Population genetics and movement show metapopulation dynamics of mid-Atlantic region horseshoe crabs4157inTanacrediJ.T.(eds.)International Horseshoe Crab Conservation and Research Efforts: 2007–2020SpringerChamhttps://doi.org/10.1007/978-3-030-82315-3_4Search in Google Scholar
James-Pirri, M. J., K. Tuxbury, S. Marino, and S. Koch. 2005. Spawning densities, egg densities, size structure, and movement patterns of spawning horseshoe crabs, Limulus polyphemus, within four coastal embayments on Cape Cod, Massachusetts. Estuaries, 28: 296–313.James-PirriM. J.TuxburyK.MarinoS.KochS.2005Spawning densities, egg densities, size structure, and movement patterns of spawning horseshoe crabs, Limulus polyphemus, within four coastal embayments on Cape Cod, MassachusettsEstuaries28296313Search in Google Scholar
King, T. L., M. S., Eackles, A. W. Aunins, H. J. Brockmann, E. Hallerman, and B. L Brown. 2015. Conservation genetics of the American horseshoe crab (Limulus polyphemus): allelic diversity, zones of genetic discontinuity, and regional differentiation. Pp. 65–96 in: Carmichael, R., Botton, M., Shin, and P., Cheung, S. (eds.) Changing Global Perspectives on Horseshoe Crab Biology, Conservation and Management. Springer, Cham. https://doi.org/10.1007/978-3-319-19542-1_4KingT. L.EacklesM. S.AuninsA. W.BrockmannH. J.HallermanE.BrownB. L2015Conservation genetics of the American horseshoe crab (Limulus polyphemus): allelic diversity, zones of genetic discontinuity, and regional differentiation6596in:CarmichaelR.BottonM.ShinP.CheungS.(eds.)Changing Global Perspectives on Horseshoe Crab Biology, Conservation and ManagementSpringerChamhttps://doi.org/10.1007/978-3-319-19542-1_4Search in Google Scholar
Krisfalusi-Gannon, J., W. Ali, K. Dellinger, L. Robertson, T. E. Brady, M. K., Goddard, R. Tinker-Kulberg, C. L. Kepley, and A.L. Dellinger. 2018. The role of horseshoe crabs in the biomedical industry and recent trends impacting species sustainability. Front. Mar. Sci. 5, p.185.Krisfalusi-GannonJ.AliW.DellingerK.RobertsonL.BradyT. E.GoddardM. K.Tinker-KulbergR.KepleyC. L.DellingerA.L.2018The role of horseshoe crabs in the biomedical industry and recent trends impacting species sustainabilityFront. Mar. Sci.5185Search in Google Scholar
Levin, J., P.A. Tomasulo, and R.S. Oser. 1970. Detection of endotoxin in human blood and demonstration of an inhibitor. J. Lab. Clin. Med. 75:903.LevinJ.TomasuloP.A.OserR.S.1970Detection of endotoxin in human blood and demonstration of an inhibitorJ. Lab. Clin. Med.75903Search in Google Scholar
Munson, R. E. 1998. Bait needs of the eel and conch fisheries in New Jersey and Delaware as determined from questionnaires filled out by commercial fishermen in those fisheries. Miscellaneous Working Papers of the Atlantic States Marine Fisheries Commission’s Horseshoe Crab Technical Committee. ASMFC, Washington DC, 8p.MunsonR. E.1998Bait needs of the eel and conch fisheries in New Jersey and Delaware as determined from questionnaires filled out by commercial fishermen in those fisheriesMiscellaneous Working Papers of the Atlantic States Marine Fisheries Commission’s Horseshoe Crab Technical CommitteeASMFC, Washington DC8p.Search in Google Scholar
Pooler, P. S., D. R. Smith, R. E. Loveland, M. L. Botton, and S. F. Michels. 2003. Assessment of sampling methods to estimate horseshoe crab (Limulus polyphemus L.) egg density in Delaware Bay. Fisheries Bull. 101: 698–703PoolerP. S.SmithD. R.LovelandR. E.BottonM. L.MichelsS. F.2003Assessment of sampling methods to estimate horseshoe crab (Limulus polyphemus L.) egg density in Delaware BayFisheries Bull.101698703Search in Google Scholar
Sasson, D. A., C. C. Chabot, J. H. Mattei, J. F. Brunson, F. K. Hall, J. H. Huber, J. M. E. Kasinak, C. McShane, P. T. Puckette, G. Sundin, and P. R. Kingsley-Smith. 2024. The American horseshoe crab (Limulus polyphemus) spawns regularly in salt marshes. Front. Ecol. Env. 22(5), p.e2738.SassonD. A.ChabotC. C.MatteiJ. H.BrunsonJ. F.HallF. K.HuberJ. H.KasinakJ. M. E.McShaneC.PucketteP. T.SundinG.Kingsley-SmithP. R.2024The American horseshoe crab (Limulus polyphemus) spawns regularly in salt marshesFront. Ecol. Env.225e2738Search in Google Scholar
Smith, D. R., H. J. Brockmann, M. A. Beekey, T. L. King, M. J. Millard and J. Zaldívar-Rae. 2017. Conservation status of the American horseshoe crab (Limulus polyphemus): a regional assessment. Rev. Fish Biol. Fisheries. 27: 135–175.SmithD. R.BrockmannH. J.BeekeyM. A.KingT. L.MillardM. J.Zaldívar-RaeJ.2017Conservation status of the American horseshoe crab (Limulus polyphemus): a regional assessmentRev. Fish Biol. Fisheries.27135175Search in Google Scholar
______, M. J. Millard, and R. H. Carmichael. 2009. Comparative status and assessment of Limulus polyphemus with emphasis on the New England and Delaware Bay populations. Biology and conservation of horseshoe crabs, Pp. 361–386 in: Tanacredi, J., M. Botton, and D. Smith (eds.) Biology and Conservation of Horseshoe Crabs. Springer, Boston, MA. https://doi.org/10.1007/978-0-387-89959-6_23SmithD. R.MillardM. J.CarmichaelR. H.2009Comparative status and assessment of Limulus polyphemus with emphasis on the New England and Delaware Bay populations. Biology and conservation of horseshoe crabs361386in:TanacrediJ.BottonM.SmithD.(eds.)Biology and Conservation of Horseshoe CrabsSpringerBoston, MAhttps://doi.org/10.1007/978-0-387-89959-6_23Search in Google Scholar
Smith, J. A., A. Dey, K. Williams, T. Diehl, S. Feigin and L. J. Niles. 2022. Horseshoe crab egg availability for shorebirds in Delaware Bay: Dramatic reduction after unregulated horseshoe crab harvest and limited recovery after 20 years of management. Aquat. Conserv.: Mar. Freshw. Ecosyst. 32: 1913–1925.SmithJ. A.DeyA.WilliamsK.DiehlT.FeiginS.NilesL. J.2022Horseshoe crab egg availability for shorebirds in Delaware Bay: Dramatic reduction after unregulated horseshoe crab harvest and limited recovery after 20 years of managementAquat. Conserv.: Mar. Freshw. Ecosyst.3219131925Search in Google Scholar
