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Publications

83 Published Articles Listed in descending order (Cited 2195 times, H index 21

  1. Alderman Sl, DA Crossley II, RM Elsey and TE Gillis 2019. Hypoxia-induced reprogramming of the cardiac phenotype in American alligators (Alligator mississippiensis) revealed by quantitative proteomics. In Accepted May 17 Scientific Reports. Impact factor 4.122.

  2. Filogonio, R, DA Crossley II 2019. Long term effects of chronic prenatal exposure to hypercarbia on organ plasticity and cardiovascular responses to adrenaline and hypoxia in common snapping turtles. Journal of Comparative Biochemistry and Physiology A 234:10-17.Impact factor 2.258.
  3. Conner, J, JL Crossley, D Nelson, RM Elsey, T Wang, DA Crossley II 2019. Does the left aorta provide proton-rich blood to the gut when crocodilians digest a meal? Journal of Experimental Biology.doi: 10.1242/jeb.201079. Impact factor 3.179.
  4. Reynolds Kirby, A, GK Cox, D Nelson, RM Heuer, JD Stieglitz, DD Benetti, M Grosell, DA Crossley II. 2019 Acute Crude Oil Exposure Alters Mitochondrial Function at Complex III of the Electron Transport System in Cardiac Muscle Fibers of Young Adult Mahi-mahi (Coryphaena hippurus)./var/folders/9k/8n7d0rxn1ld66ww3bkmgvn5h0000gp/T/com.microsoft.Word/WebArchiveCopyPasteTempFiles/t.gifJournal of Comparative Biochemistry and Physiology C. 218:88-95. Impact factor 2.426.
  5. Boukens, B, T Opthof, MR Sartori, AS Abe, R Filogonio, LBT Carreira, B Jensen, J Conner, DA Crossley II, D Kristensen. 2018 The electrocardiogram of vertebrates: evolutionary changes from ectothermy to endothermy. Progress in Biophysics and Molecular xxx. 1-14. Impact factor 3.427.
  6. Sartori, MR, ZF Kohl, EW Taylor, AS Abe, DA Crossley II. 2018 Oxygen provision to developing embryos of the snapping turtle Chelydra serpentina. Journal of Experimental Biology.221doi: 10.1242/jeb.185967. Impact factor 3.179.
  7. Joyce, W, TE Miller, RM Elsey, T Wang, DA Crossley II 2018. The effects of embryonic hypoxic programming on cardiovascular function and regulation at rest and swimming in American alligators. Journal of Comparative Biochemistry and Physiology A 188(6):967-976.Impact factor 2.258.
  8. Joyce, W, RM Elsey, T Wang, DA Crossley II 2018. Venous return, not heart rate per se, determines cardiac output at rest and during exercise in alligators. American Journal Physiology Regulatory, Integrative, and Comparative Physiology315:R296-R302. Impact factor 3.082.
  9. Sirsat, TS, DA Crossley II, J Crossley, EM Dzialowsk. 2018. Thyroid hormone manipulation influences cardiovascular regulation in embryonic Pekin duck, Anas platyrhynchosdomesticaJournal of Comparative Physiology B188(5):843-853.Impact factor 2.517.
  10. Joyce, W, JL Crossley, RM Elsey, T Wang, DA Crossley II. 2018. Contribution of active atrial contraction to cardiac output in anesthetized American alligators (Alligator mississippiensis).Journal of Experimental Biology221 doi: 10.1242/jeb.178194. Impact factor 3.179.
  11. Jensen, B, BJ Boukens, DA Crossley II, J Conner, R Mohan, AV Postma, CR Gloschat, RM Elsey, D Sedmera, I Efimov, VM Christoffels. 2018 Specialized impulse conduction pathway in the alligator heart. elife7e32120.Impact factor 7.616.
  12. Thompson, MM, BH Coe, RM Andrews, DA Cristol, DA Crossley II, WA Hopkins. 2018. Agricultural land use creates evolutionary traps for nesting turtles and is exacerbated by mercury pollution. Journal of Experimental Zoology. 329(4-5):230-243.Impact factor 1.246.
  13. Shartau, RB, DA Crossley II, ZF Kohl, CJ Brauner 2018. Embryonic American alligators (Alligator mississippiensis) preferentially regulate tissue intracellular pH during a combined respiratory and metabolic acidosis. CanadianJournal of Zoology96(7):723-727. Impact factor 1.184.
  14. Mueller, CA, J Eme,KB Tate,DA Crossley II2018. Chronic captopril treatment reveals the role of ANG II in cardiovascular function of embryonic American alligators (Alligator mississippiensis)Journal of Comparative Physiology B.188(4) 657-669. Impact factor 2.517.
  15. Nelson, D, DA Crossley II, R Elsey, KB Tate 2018. Cardiovascular adjustments with egg temperature of embryonic American alligators, Alligator mississippiensis. Journal of Comparative Physiology B. 188:471-480.Impact factor 2.517.
  16. Thompson, MM. BH Coe, RM Andrews, DA Stauffer, DA Cristol, DA Crossley II, WA Hopkins 2018. Major Global Changes Interact to Cause Male-biased Sex Ratios in a Reptile with Temperature-dependent Sex Determination. Biological Conservation 222:64-74. Impact factor 4.660.
  17. Joyce, W, CJ Williams, DA Crossley II, T Wang 2018. Venous pressures and cardiac filling in turtles during apnoea and intermittent ventilation. Journal of Comparative Physiology B. 188:481-490.Impact factor 2.517.
  18. Cox, GK; DA Crossley II, JD Stieglitz, RM Heuer, DD Benetti, M Grosell 2017. Oil exposure impairs in situ cardiac function in response to β-adrenergic stimulation in Cobia (Rachycentron canadum). Environmental Science & Technology.51 (24):14390−14396.Impact factor 6.653.
  19. Nelson, D, JD Stieglitz, GK. Cox, RM Heuer, DD Benetti,M Grosell, DA Crossley II 2017. Cardio-Respiratory Function of the Saltwater Pelagic Species The Cobia (Rachycentron canadum) During Exercise; The Impact of Crude Oil Exposure. Journal of Comparative Biochemistry and Physiology C. 201:58-65.Impact factor 2.426.
  20. Crossley II, DA, JL Crossley, C Smith, M Harfush, H Sánchez-Sánchez, MV Garduño-Paz, JF Méndez-Sánchez 2017. Developmental cardiovascular physiology of the olive ridley sea turtle (Lepidochelys olivacea). Journal of Comparative Biochemistry and Physiology A 211:69-76.Impact factor 2.258.
  21. Wearing, OH, J Conner, D Nelson, J Crossley, DA Crossley II 2017. Embryonic hypoxia programmes postprandial cardiovascular function in adult common snapping turtles Chelydra serpentina. Journal of Experimental Biology.220:2589-2597. Impact factor 3.179.
  22. Gobeli, A, DA Crossley II, J Johnson, K Reyna 2017. The Effects of Neonicotinoid Exposure on Embryonic Development and Organ Mass in Northern Bobwhite Quail. Journal of Comparative Biochemistry and Physiology C.195:9-15. Impact factor 2.426.
  23. Findsen, A, DA Crossley II, T Wang 2017. Feeding alters blood flow patterns in the American Alligator (Alligator mississippiensis). Journal of Comparative Biochemistry and Physiology A 215, Suppliment:C1-5.Impact factor 2.258
  24. Sartori, MR, AS Abe, DA Crossley II, EW Taylor 2017. Rates of oxygen uptake increase independently of changes in heart rate in late stages of development and at hatching in the green iguana, Iguana iguana. Journal of Comparative Biochemistry and Physiology A 205:28-34.Impact factor 2.258.
  25. Galli, G, R Elsey, H Shiels, E Dzialowski, DA Crossley II 2016. Developmental plasticity of mitochondrial function in American alligators, Alligator mississippiensis.American Journal Physiology Regulatory, Integrative, and Comparative Physiology311(6):R1164-R1172.Impact factor 3.082.
  26. Nelson, D, G Cox, RM Heuer, JD Stieglitz, R Hownig, EM Mager, DD Benetti M Grosell, DA Crossley II 2016. In situHemodynamics effects of Polycyclic Aromatic Hydrocarbon Exposure in Juvenile Mahi-Mahi (Coryphaenahippurus). Aquatic Toxicology180:274-281.Impact factor 3.884.
  27. Crossley II, DA, R Ling, T Gillum, D Nelson, J Conner, J Hapgood, R Elsey, J Eme 2017. Metabolic rate 21% and 10% O2of embryonic alligators (Alligator mississippiensis) incubated in normoxic and hypoxic conditions. Journal of Comparative Biochemistry and Physiology A 207:77-82. Impact factor 2.258.
  28. Shartau, RB, DW Baker, DA Crossley II, CJ Brauner 2016. Preferential intracellular pH regulation: hypotheses and perspectives. Journal of Experimental Biology.219:2235-2244. Impact factor 3.179.
  29. Shartau, RB, DA Crossley II, ZF Kohl, CJ Brauner 2016. Embryonic common snapping turtles (Chelydra serpentina) preferentially regulate tissue pH during acid-base challenges.Journal of Experimental Biology. 219:1994-2002.Impact factor 3.179.
  30. Tate, KB, T Rhen, J Eme, ZF Kohl, J Crossley, RM Elsey, DA Crossley II 2016 Periods of cardiovascular susceptibility to hypoxia in embryonic American alligators (Alligator mississippiensis). American Journal Physiology Regulatory, Integrative, and Comparative Physiology310 (11):R1267-R1278. Impact factor 3.082.
  31. Keen, AN, HA Shiels, DA Crossley II 2016.Cardiovascular function, compliance and connective tissue remodeling in the turtle, Trachemys scripta, following thermal acclimation.American Journal Physiology Regulatory, Integrative, and Comparative Physiology311(1):R133-43.Impact factor 3.082.
  32. Skovgaard, N, DA. Crossley II, T Wang 2016. Low cost of pulmonary ventilation in American alligators (Alligator mississippiensis) stimulated with doxapram. Journal of Experimental Biology.219:933-936.Impact factor 3.179.
  33. Crossley II, DA, WW Burggren, C Rieber, J Altimiras, K Rodnick 2016. "Mass Transport: Circulatory Systems with Emphasis on non-Endothermic Species" Comprehensive Physiology.Published Online: 6 DEC 2016 DOI:10.1002/cphy.c150010. Impact factor 5.797.
  34. Wearing, O, J Eme, T Rhen, DA Crossley II 2016. Phenotypic plasticity in the common snapping turtle (Chelydra serpentina): Long-term physiological effects of chronic hypoxia during embryonic development.American Journal Physiology Regulatory, Integrative, and Comparative Physiology.310:R176-R184.Impact factor 3.082.
  35. Jensen, B, M Elfwing, R Elsey, T Wang, DA Crossley II 2016. Coronary blood flow in the American alligators (Alligator mississippiensis). Journal of Comparative Biochemistry and Physiology A191:44-52.Impact factor 2.258.
  36. Kohl, Z, H Tazawa, DA Crossley II, WW Burggren. 2015. Dynamics of blood viscosity regulation during hypoxic challenges in chicken embryos. Journal of Comparative Biochemistry and Physiology A 190:1-8.Impact factor 2.258.
  37. Sartori, MR, CAC Leite, AS Abe, DA Crossley II, EW Taylor. 2015. The progressive onset of cholinergic and adrenergic control of heart rate during development in the green iguana, Iguana iguana, Journal of Comparative Biochemistry and Physiology A. 188:1-8. Impact factor 2.258.
  38. Sartori, MR, EW Taylor, AS Abe, DA Crossley II. 2015 An appraisal of the use of an infrared digital monitoring system for long-term measurement of heart rate in reptilian embryos. Journal of Comparative Biochemistry and Physiology A188:17-21.Impact factor 2.258.
  39. Mersereau,EJ, SL Poitra, A Espinoza, DA Crossley II, T Darland. 2015. The Effects of Cocaine on Heart Rate and Electrocardiogram in Zebrafish (Danio rerio). Journal of Comparative Biochemistry and Physiology C172-173:1-6. Impact factor 2.426.
  40. Crossley II, DA, O Wearing, B Platzack, L Hartzler, JW Hicks 2015. Acute and chronic temperature effects on cardiovascular regulation in the red‐eared slider (Trachemys scripta).Journal of Comparative Physiology B. 185:401-411.Impact factor 2.517.
  41. Jonker SS, GD Giraud, HM Espinoza, EH Davis, DA Crossley II 2015. Effects of chronic hypoxia on cardiac function measured by pressure-volume catheter in fetal chickens. American Journal PhysiologyRegulatory, Integrative, and Comparative Physiology.308:R680-R689.Impact factor 3.082.
  42. Rhen, T, R Fagerlie, A Schroeder, DA Crossley II, J. Lang 2015. Molecular and morphological differentiation of testes and ovaries in relation to the thermosensitive period of gonad development in the snapping turtle, Chelydra serpentina. Differentiation89(1-2):31-41.Impact factor 2.688.
  43. Eme, J, DA Crossley II 2015. Chronic hypercapnic incubation increases relative organ growth and reduces blood pressure of embryonic American alligator (Alligator mississippiensis). Journal of Comparative Biochemistry and Physiology A 182:53-57.Impact factor 2.258.
  44. Hedrick, MS, KA McNew and DA Crossley II 2015. Baroreflex function in anurans from different environments.Journal of Comparative Biochemistry and Physiology A. 179:144-146.Impact factor 2.258.
  45. Tate, KB, ZF Kohl, J Eme, T Rhen, DA Crossley II 2015. Critical Windows of Cardiovascular Susceptibility to Developmental Hypoxia in Common Snapping Turtle Embryos (Chelydra serpentina).Physiological and Biochemical Zoology 88(2):103-115. Impact factor 2.291.
  46. Mueller, CA, DA Crossley II, WW Burggren 2014. The actions of the renin-angiotensin system on cardiovascular and osmoregulatory function in embryonic chickens (Gallus gallus domesticus). Journal of Comparative Biochemistry and Physiology A. 178:37-45.Impact factor 2.258.
  47. Eme, J, T Rhen, DA Crossley II 2014.Adjustments in cholinergic, adrenergic and purinergic control of cardiovascular function in snapping turtle embryos (Chelydra serpentina) incubated in chronic hypoxia. Journal of Comparative Physiology B. 184(7):891-902.Impact factor 2.517.
  48. Marschand, RE, JL Wilson, ML Burleson, DA Crossley II, MS Hedrick. 2014. Effects of prolonged lung inflation or deflation on pulmonary stretch receptor discharge in the alligator (Alligator mississippiensis). Respiratory Physiology and Neurobiology. 200:25-32. Impact factor 1.792.
  49. Iverson, N, T Wang, E Baatrup, DA Crossley II 2014. The role of nitric oxide in the cardiovascular response to chronic and acute hypoxia in White Leghorn chicken (Gallus domesticus). Acta Physiologica211(2):346-57.Impact factor 5.93.
  50. Taylor, EW, MR Sartori, CAC Leite, AS Abe, DA Crossley II 2014.The phylogeny and ontogeny of autonomic control of the heart and cardiorespiratory interactions in vertebrates. Journal of Experimental Biology. 217:690-703Impact factor 3.179.
  51. Swart, J, KB Tate, DA Crossley II 2014. Development of adrenergic and cholinergic receptor cardiovascular regulatory capacity in the Canada goose (Branta canadensis) and domestic goose (Anser anser domesticus). Journal of Comparative Biochemistry and Physiology A. 167:59-67.Impact factor 2.258.
  52. Burggren, WW, VM Christoffels, DA Crossley II, S Enok, AP Farrell, MS Hedrick, JW Hicks, B Jensen, AFM Moorman, CA Mueller, N Skovgaard, EW Taylor, T Wang 2014. Comparative cardiovascular physiology: future trends, opportunities and challenges. Acta Physiologica. 210:257-276. Impact factor 5.93.
  53. Mueller, CA, WW Burggren, DA Crossley II 2013. Angiotensin II and baroreflex control of heart rate in embryonic chickens (Gallus gallus domesticus). American Journal PhysiologyRegulatory, Integrative, and Comparative Physiology305:R855-R63.Impact factor 3.082.
  54. Eme J, T Rhen, KB Tate, K Gruchalla, ZF Kohl, CE Slay, DA Crossley II 2013. Plasticity of cardiovascular function in snapping turtle embryos (Chelydra serpentina): Chronic hypoxia alters autonomic regulation and gene expression. American Journal Physiology Regulatory, Integrative, and Comparative Physiology, 304:R966-R979.Impact factor 3.082.
  55. Marks C. J Eme, RM Elsey, DA Crossley II 2013. Chronic hypoxic incubation blunts thermally-dependent cholinergic tone on the cardiovascular system in embryonic American alligator (Alligator mississippiensis) Journal of Comparative Physiology B 183:947-957.Impact factor 2.517.
  56. Eme J, RM Elsey, DA Crossley II 2013. Development of sympathetic cardiovascular control in embryonic, hatchling, and yearling female American alligator (Alligator mississippiensis). Journal of Comparative Biochemistry and Physiology A. 165:272-280.Impact factor 2.258
  57. Crossley II. DA, MR Sartori, AS Abe, EW Taylor 2013. A role for histamine in cardiovascular regulation in late stage embryos of the red-footed tortoise, Chelonoidis carbonariaSpix, 1824. Journal of Comparative Physiology B 183:811-820.Impact factor 2.517.
  58. Alvine, T, T Rhen, DA Crossley II 2013. Temperature-dependent sex determination modulates cardiovascular maturation in embryonic snapping turtles, Chelydra serpentine.Journal of Experimental Biology.216(5): 751-758.Impact factor 3.179.
  59. Crossley II. DA, J Altimiras 2012. Effect of selection for commercially productive traits on the plasticity of cardiovascular regulation in chicken breeds during embryonic development. Poultry Science. 91(10):2628-2636. Impact factor 2.216.
  60. Tate, KB, J Eme, J Swart, JM Conlon, DA Crossley II 2012. Effects of dehydration on cardiovascular development in the embryonic American alligator (Alligator mississipiensis). Journal of Comparative Biochemistry and Physiology A. 162(3):252-258.Impact factor 2.258
  61. Bagatto, BP, J Altimiras, DA Crossley II, RM Elsey, JW Hicks 2012. Physiological Variability In Yearling Alligators: Clutch Differences At Rest And During Activity.Journal of Comparative Biochemistry and Physiology A. 162(1):44-50.Impact factor 2.258.
  62. Lindgren, I, DA Crossley II, E Villamor, J Altimiras 2011. Hypotension in the chronically hypoxic chicken embryo is related to the β-adrenergic response of chorioallantoic and femoral arteries and not to bradycardia. American Journal Physiology Regulatory, Integrative, and Comparative Physiology.301(4):R1161-R1168.Impact factor 3.082.
  63. Eme J, J Altimiras, JW Hicks, DA Crossley II 2011. Hypoxic Alligator Embryos: Chronic hypoxia, catecholamine levels and autonomic responses of in ovoalligators. Journal of Comparative Biochemistry and Physiology A.160(3):412-420.Impact factor 2.258.
  64. Eme, J, JW Hicks, DA Crossley II 2011. Chronic hypoxic incubation blunts a cardiovascular reflex loop in embryonic American alligator (Alligator mississippiensis). Journal of Comparative Physiology B 181(7):981-990.Impact factor 2.517.
  65. Eme, J, DA. Crossley II, JW Hicks 2011. Role of the Left Aortic Arch in embryonic American alligator (Alligator mississippiensis). Journal of Comparative Physiology B 181:391-401.Impact factor 2.517.
  66. Crossley II, DA, SS Hillman 2010. Posterior lymph heart function in two species of anurans: analysis based on both in vivo pressure-volume relationships by conductance manometry and ultrasound. Journal of Experimental Biology.213 (Pt 21): 3710-3716. Impact factor 3.179.
  67. Crossley II, DA, S Yonker, J Hicks, K Thornburg 2010. Maturation of the Angiotensin II Cardiovascular Response in the Embryonic White Leghorn Chicken (Gallus gallus). Journal of Comparative Physiology B180:1057-1065.Impact factor 2.517.
  68. Crossley II, DA WW Burggren 2009. Development Of Cardiac Form And Function In Reptiles. Journal of Morphology. 270:1400-1412.Impact factor 1.711.
  69. Crossley DA, J Altimiras 2005. Cardiovascular development in embryos of the American alligator Alligator mississippiensis: effects of chronic and acute hypoxiaJournal of Experimental Biology. 207:31-39. Featured in Inside JEB. Impact factor 3.179.
  70. Scanlan TS, KL Suchland, ME Hart, Y Huang, DA Crossley II, PJ Kruzich, JR Bunzow, ET Lin, D Hatton, DK Grandy 2004. 3-Iodothyronamine is an endogenous and rapidly-acting derivative of thyroid hormone. Nature Medicine10(6): 638-642. Impact factor 32.621.
  71. Crossley II, DA, JW Hicks, J Altimiras 2003. Ontogeny of baroreflex control in the American alligator, Alligator mississippiensis. Journal of Experimental Biology. 206:2703-2710. Impact factor 3.179.
  72. Crossley II, DA, BP Bagatto, E Dzialowski, WW Burggren 2003. Maturation of cardiovascular control mechanisms in the embryonic emu (Dromiceius novaehollandiae). Journal of Experimental Biology 206:2895-2902.Impact factor 3.179.
  73. Burggren, WW, DA Crossley II, G Rogowitz, D Thompson 2003. Clutch effects explain heart rate variation in embryonic frogs (Cave Coqui, Eleutherodactylus cooki). Physiological and Biochemical Zoology 76(5):672-678.Impact factor 2.291.
  74. Crossley II, DA, WW Burggren, J Altimiras 2003. Cardiovascular regulation during hypoxia in embryos of the domestic chicken Gallus gallus. American Journal Physiology Regulatory, Integrative, and Comparative Physiology. 284:R219-R226.Impact factor 3.082.
  75. Burggren, WW, DA Crossley II 2002. Comparative cardiovascular development: improving the conceptual framework. Journal of Comparative Biochemistry and Physiology A.132(4):661-674.Impact factor 2.258.
  76. Xu, X, SE Meiler, TP Zhong, M Mohideen, DA Crossley II, WW Burggren, MC Fishman 2002. Cardiomyopathy in zebrafish due to mutation in an alternatively spliced exon of titin. Nature Genetics. 30(2):205-209.Impact factor 27.125.
  77. Platzack, B, Y Wang, DA Crossley II, V Lance, J Hicks, M Conlon 2002. Purification, characterization and cardiovascular actions of endothelin-1 and endothelin-3 from the alligator, Alligator mississipiensis.American Journal Physiology Regulatory, Integrative, and Comparative Physiology.282:R594-R602.Impact factor 3.082.
  78. Crossley II, DA, J Altimiras 2000. Ontogeny of cholinergic and adrenergic cardiovascular regulation in the domestic chicken (Gallus gallus). American Journal Physiology Regulatory, Integrative, and Comparative Physiology. 279:R1091-R1098.Impact factor 3.082.
  79. Altimiras, J, DA Crossley II 2000. Control of blood pressure mediated by baroreflex changes of heart rate in the chicken embryo (Gallus gallus). American Journal Physiology Regulatory, Integrative, and Comparative Physiology. 278:R980-R086.Impact factor 3.082.
  80. Crossley II, DA, T Wang, J Altimiras 2000. Role of nitric oxide in the systemic and pulmonary circulation of anaesthetized turtles (Trachemys scripta). Journal of Experimental Zoology286:683-689.Impact factor 1.246.
  81. Bagatto, BP, DA Crossley II, WW Burggren 2000. Physiological variability in neonatal armadillo quadruplets: within- and between-litter differences. Journal of Experimental Biology 203:1733-1740.(Cover article). Impact factor 3.179.
  82. Crossley II, DA, S Hillman 1999. The role of pulmonary baroreceptors in the control of lymphatic heart rate in the toad (Bufo marinus). Physiological and Biochemical Zoology72(1):109-115.Impact factor 2.291.
  83. Crossley II, DA, J Altimiras, T Wang 1998. Hypoxia elicits an increase in pulmonary vasculature resistance in anaesthetized turtles (Trachemys scripta).Journal of Experimental Biology. 201:3367-3375.Impact factor 3.179.