Journal of
Neuroscience and Behavioral Health

  • Abbreviation: J. Neurosci. Behav. Health
  • Language: English
  • ISSN: 2141-2286
  • DOI: 10.5897/JNBH
  • Start Year: 2009
  • Published Articles: 69

Full Length Research Paper

Behavioral Changes in Crayfish after Daily Exposure to Blue LED Light.

Syed Y. Abbas
  • Syed Y. Abbas
  • Department of Biology, Central Connecticut State University, 1615 Stanley Street, New Britain, CT 06050-4010, United States of America.
  • Google Scholar
Gurbakhshash Singh
  • Gurbakhshash Singh
  • Department of Mathematics, Central Connecticut State University, 1615 Stanley Street, New Britain, CT 06050-4010, United States of America.
  • Google Scholar
Joanne E. Pérez-Colón
  • Joanne E. Pérez-Colón
  • Department of Biology, Central Connecticut State University, 1615 Stanley Street, New Britain, CT 06050-4010, United States of America.
  • Google Scholar
Saima Kousar
  • Saima Kousar
  • Department of Biology, Central Connecticut State University, 1615 Stanley Street, New Britain, CT 06050-4010, United States of America.
  • Google Scholar
Rachel Cox
  • Rachel Cox
  • Department of Biology, Central Connecticut State University, 1615 Stanley Street, New Britain, CT 06050-4010, United States of America.
  • Google Scholar
Mark E. Jackson
  • Mark E. Jackson
  • Department of Biology, Central Connecticut State University, 1615 Stanley Street, New Britain, CT 06050-4010, United States of America.
  • Google Scholar


  •  Received: 29 May 2024
  •  Accepted: 19 December 2024
  •  Published: 31 January 2025

References

Abbas SY, Nogueira MI, Azmitia EC (2007). Antagonist-induced increase in 5-HT1A-receptor expression in adult rat hippocampus and cortex. Synapse 61(7):531-539. 
Crossref

 

Abeel T, Vervaecke H, Roelant E, Platteaux I, Adriaen J, Durinck G, Meeus W, Perre Lvd, Aerts S (2015). Evaluation of the influence of light conditions on crayfish welfare in intensive aquaculture. In Food futures: ethics, science and culture pp. 244-250. 
Crossref

 

Albert PR, Vahid-Ansari F, Luckhart C (2014). Serotonin-prefrontal cortical circuitry in anxiety and depression phenotypes: pivotal role of pre-and post-synaptic 5-HT1A receptor expression. Frontiers in Behavioral Neuroscience 8:199. 
Crossref

 

Arechiga H, Fernandez-Quiroz F, Fernandez de Miguel F, Rodriguez-Sosa L (1993). The circadian system of crustaceans. Chronobiology International 10(1):1-19. 
Crossref

 

Barrera-Mera B, Block GD (1990). Protocerebral circadian pacemakers in crayfish: evidence for mutually coupled pacemakers. Brain Research 522(2):241-245. 
Crossref

 

Bedrosian TA, Fonken LK, Walton JC, Haim A, Nelson RJ (2011). Dim light at night provokes depression-like behaviors and reduces CA1 dendritic spine density in female hamsters. Psychoneuroendocrinology 36(7):1062-1069. 
Crossref

 

Bedrosian TA, Vaughn CA, Galan A, Daye G, Weil ZM, Nelson RJ (2013). Nocturnal light exposure impairs affective responses in a wavelength-dependent manner. Journal of Neuroscience 33(32):13081-13087. 
Crossref

 

Berson DM, Dunn FA, Takao M (2002). Phototransduction by retinal ganglion cells that set the circadian clock. Science 295(5557)1070-1073. 
Crossref

 

Borniger JC, McHenry ZD, Abi Salloum BA, Nelson RJ (2014). Exposure to dim light at night during early development increases adult anxiety-like responses. Physiology and Behavior 133:99-106. 
Crossref

 

Cedeño Moreno R, Morales Hernández LA, Rodríguez-Sosa L, Cruz-Albarran IA, Calderón-Rosete G (2023). Crayfish-tracking motion vision to analyze the locomotor activity induced by changes in environmental lighting. Journal of Applied Research and Technology 21(4):650-664. 
Crossref

 

Conover WJ, Iman RL (1981). Rank transformations as a bridge between parametric and nonparametric statistics. The American Statistician 35(3):124-129. 
Crossref

 

Dacey DM, Liao HW, Peterson BB, Robinson FR, Smith VC, Pokorny J, Yau KW, Gamlin PD (2005). Melanopsin-expressing ganglion cells in primate retina signal colour and irradiance and project to the LGN. Nature 433(7027):749-754. 
Crossref

 

Eguchi E, Waterman TH, Akiyama J (1973). Localization of the violet and yellow receptor cells in the crayfish retinula. Journal of General Physiology 62(4):355-374. 
Crossref

 

Escamilla-Chimal EG, Hiriart M, Sanchez-Soto MC, Fanjul-Moles ML (2002). Serotonin modulation of CHH secretion by isolated cells of the crayfish retina and optic lobe. General and Comparative Endocrinology 125(2):283-290. 
Crossref

 

Fanjul-Moles ML, Bosques-Tistler T, Prieto-Sagredo J, Castanon-Cervantes O, Fernandez-Rivera-Rio L (1998). Effect of variation in photoperiod and light intensity on oxygen consumption, lactate concentration and behavior in crayfish Procambarus clarkii and Procambarus digueti. Comparative Biochemistry and Physiology Part A: Molecular and Integrative Physiology 119(1):263-269. 
Crossref

 

Fanjul-Moles ML, Escamilla-Chimal EG, Gloria-Soria A, Hernandez-Herrera G (2004). The crayfish Procambarus clarkii CRY shows daily and circadian variation. Journal of Experimental Biology 207(Pt 9):1453-1460. 
Crossref

 

Fernández-De-Miguel F, Aréchiga H (1992). Sensory inputs mediating two opposite behavioural responses to light in the crayfish Procambarus clarkii. Journal of Experimental Biology 164(1):153-169. 
Crossref

 

Figueiro MG, Rea MS (2010). The effects of red and blue lights on circadian variations in cortisol, alpha amylase, and melatonin. International Journal of Endocrinology 829351. 
Crossref

 

Fossat P, Bacque-Cazenave J, De Deurwaerdere P, Cattaert D, Delbecque JP (2015). Serotonin, but not dopamine, controls the stress response and anxiety-like behavior in the crayfish Procambarus clarkii. Journal of Experimental Biology 218(17):2745-2752. 
Crossref

 

Fossat P, Bacque-Cazenave J, De Deurwaerdere P, Delbecque JP, Cattaert D (2014). Comparative behavior. Anxiety-like behavior in crayfish is controlled by serotonin. Science 344(6189):1293-1297. 
Crossref

 

Fossat P, Bacqué-Cazenave J, Delbecque J-P, Cattaert D (2015). Measuring anxiety-like behavior in crayfish by using a sub aquatic dark-light plus maze. Bio-protocol 5(3):e1396. 
Crossref

 

Hamid PN, Newport AG (1989). Effect of colour on physical strength and mood in children. Perceptual and Motor Skills 69(1):179-185. 
Crossref

 

Hammond RD, Fingerman M (1975). Entrainment analysis of the circadian locomotor activity rhythm in specimens of the crayfish, Faxonella clypeata, having activity peaks at different times of the solar day. Chronobiologia 2(2):119-132.

View

 

Holzman DC (2010). What's in a color? The unique human health effect of blue light. Environmental Health Perspectives118(1):A22-27. 
Crossref

 

Hong X, Xu A, Shi Y, Geng L, Zou R, Guo Y (2021). The effect of red and blue on gross and fine motor tasks: confirming the inverted-u hypothesis. Frontiers in Psychology 12:744913. 
Crossref

 

Jahn-Eimermacher A, Lasarzik I, Raber J (2011). Statistical analysis of latency outcomes in behavioral experiments. Behavioural Brain Research 221(1):271-275. 
Crossref

 

Kingston AC, Cronin TW (2015). Short- and long-wavelength-sensitive opsins are involved in photoreception both in the retina and throughout the central nervous system of crayfish. Journal of Comparative Physiology A 201(12):1137-1145. 
Crossref

 

Larimer JL (1966). A functional caudal photoreceptor in blind cavernicolous crayfish. Nature 210(5032):204-205. 
Crossref

 

Larimer JL, Trevino DL, Ashby EA (1966). A comparison of spectral sensitivities of caudal photoreceptors of epigeal and cavernicolous crayfish. Comparative Biochemistry and Physiology 19(2):409-415. 
Crossref

 

Li H, Cooper RL (2002). The effect of ambient light on blind cave crayfish: social interactions. Journal of Crustacean Biology 22(2):449-458. 
Crossref

 

Lorenzon S, Edomi P, Giulianini PG, Mettulio R, Ferrero EA (2005). Role of biogenic amines and cHH in the crustacean hyperglycemic stress response. Journal of Experimental Biology 208(Pt17)3341-3347. 
Crossref

 

Mayer-Pinto M, Jones TM, Swearer SE, Robert KA, Bolton D, Aulsebrook AE, Dafforn KA, Dickerson AL, Dimovski AM, Hubbard N, McLay LK, Pendoley K, Poore AGB, Thums M, Willmott NJ, Yokochi K, Fobert EK (2022). Light pollution: a landscape-scale issue requiring cross-realm consideration. UCL Open Environment 4(e036). 
Crossref

 

Mebes HD (1979). Do colours affect 'normal' behaviour of laboratory and farm animals? Instantaneous change of behaviour by presentation of red in the Peach-F. Journal of the South African Veterinary Association 50(2):97-99.

View

 

Mohawk JA, Green CB, Takahashi JS (2012). Central and peripheral circadian clocks in mammals. Annual Review of Neuroscience 35:445-462. 
Crossref

 

Nash TR, Chow ES, Law AD, Fu SD, Fuszara E, Bilska A, Bebas P, Kretzschmar D, Giebultowicz JM (2019). Daily blue-light exposure shortens lifespan and causes brain neurodegeneration in Drosophila. npj Aging and Mechanisms of Disease 5(8). 
Crossref

 

Nelson-Mora J, Prieto-Sagredo J, Loredo-Ranjel R, Fanjul-Moles ML (2013). Putative pacemakers in the eyestalk and brain of the crayfish Procambarus clarkii show circadian oscillations in levels of mRNA for crustacean hyperglycemic hormone. PLoS One 8(12):e83937. 
Crossref

 

Nishi M, Azmitia EC (1996). 5-HT1A receptor expression is modulated by corticosteroid receptor agonists in primary rat hippocampal culture. Brain Research 722(1-2):190-194. 
Crossref

 

Okada S, Hirano N, Abe T, Nagayama T (2021). Aversive operant conditioning alters the phototactic orientation of the marbled crayfish Journal of Experimental Biology 224(Pt 6). 
Crossref

 

Petrowski K, Schmalbach B, Niedling M, Stalder T (2019). The effects of post-awakening light exposure on the cortisol awakening response in healthy male individuals. Psychoneuroendocrinology 108:28-34. 
Crossref

 

Prieto-Sagredo J, Fanjul-Moles ML (2001). Spontaneous and light-evoked discharge of the isolated abdominal nerve cord of crayfish in vitro reveals circadian oscillations. Chronobiology International 18(5):759-765. 
Crossref

 

Prosser CL (1934). Action potentials in the nervous system of the crayfish. II. Responses to illumination of the eye and caudal ganglion. Journal of Cellular and Comparative Physiology 4(3):363-377. 
Crossref

 

Rodriguez-Sosa L, Calderon-Rosete G, Flores G (2008). Circadian and ultradian rhythms in the crayfish caudal photoreceptor. Synapse 62(9):643-652. 
Crossref

 

Ruokonen TJ, Niemi A, Suuronen P, Leskelä A, Keskinen T (2021). The effect of LED lights on trap catches in signal crayfish fisheries. Management of Biological Invasions 12(3):654-654-661. 
Crossref

 

Sandeman DC, Sandeman RE, De Couet HG (1990). Extraretinal photoreceptors in the brain of the crayfish Cherax destructor. Journal of Neurobiology 21(4):619-629. 
Crossref

 

Schibler U, Gotic I, Saini C, Gos P, Curie T, Emmenegger Y, Sinturel F, Gosselin P, Gerber A, Fleury-Olela F, Rando G, Demarque M, Franken P (2015). Clock-talk: interactions between central and peripheral circadian oscillators in mammals. Cold Spring Harbor Symposia Quantitative Biology 80:223-232. 
Crossref

 

Spitschan M, Aguirre GK, Brainard DH, Sweeney AM (2016). Variation of outdoor illumination as a function of solar elevation and light pollution. Science Reports 6(26756) 
Crossref

 

Sullivan JM, Genco MC, Marlow ED, Benton JL, Beltz B S, Sandeman DC (2009). Brain photoreceptor pathways contributing to circadian rhythmicity in crayfish. Chronobiology International 26(6):1136-1168. 
Crossref

 

Suryanto ME, Audira G, Roldan MJM, Lai HT, Hsiao CD (2023). Color perspectives in aquatic explorations: unveiling innate color preferences and psychoactive responses in freshwater crayfish. Toxics 11(10). 
Crossref

 

Swierzbinski ME, Lazarchik AR, Herberholz J (2017). Prior social experience affects the behavioral and neural responses to acute alcohol in juvenile crayfish. Journal of Experimental Biology 220(Pt8):1516-1523. 
Crossref

 

Syposz M, Padget O, Willis J, Van Doren BM, Gillies N, Fayet AL, Wood MJ, Alejo A, Guilford T (2021). Avoidance of different durations, colours and intensities of artificial light by adult seabirds. Scientific Reports 11(1):18941.
Crossref

 

Tatemoto P, Serra M (2021). Low luminosity reduces agonistic behaviour of Nile Tilapia. Journal of Applied Animal Welfare Science 24(4):434-441. 
Crossref

 

Toyota K, Usami K, Mizusawa K, Ohira T (2022). Effect of blue light on the growth of the red swamp crayfish Procambraus clarkii larvae -seasonal and sexual differences. Zoological Studies 61:3.

View

 

Venuti LS, Pena-Flores NL, Herberholz J (2021). Cellular interactions between social experience, alcohol sensitivity, and GABAergic inhibition in a crayfish neural circuit. Journal of Neurophysiology 125(1):256-272. 
Crossref

 

Wahl S, Engelhardt M, Schaupp P, Lappe C, Ivanov IV (2019). The inner clock-blue light sets the human rhythm. Journal of Biophotonics 12(12):e201900102. 
Crossref

 

Wilkens L, Douglass J (1994). A stimulus paradigm for analysis of near-field hydrodynamic sensitivity in crustaceans. Journal of Experimental Biology 189(1):263-272. 
Crossref

 

Wilkens LA, Larimer JL (1972). The CNS photoreceptor of crayfish: morphology and synaptic activity. Journal of comparative physiology 80(4):389-407. 
Crossref

 

Wirz-Justice A, Skene DJ, Munch M (2021). The relevance of daylight for humans. Biochemical Pharmacology 191-114304. 
Crossref

 

Xu J, Sang W, Dai H, Lin C, Ke S, Mao J, Wang G, Shi X (2022) A detailed analysis of the effect of different environmental factors on fish phototactic behavior: directional fish guiding and expelling technique. Animals (Basel) 12(3) 
Crossref