Celebrating a scientist: Josué A. Núñez’s passion for insect physiology, engineering, and evolution. Notes and Records: the Royal Society Journal of the History of Science.
De Marco RJ (2024)

Early-life challenge enhances cortisol regulation in zebrafish larvae. Biology Open.
Castillo-Ramírez L, Herget U, Ryu S, De Marco RJ (2024)

Cortisol dynamics and GR-dependent feedback regulation in zebrafish larvae exposed to repeated stress. Biology Open.
Castillo-Ramírez L, Ryu S, De Marco RJ (2024)

Saccades and pivoting during positive mechanotaxis in larval zebrafish. MicroPubl Biol.
Davies G, De Marco RJ (2024)

Altered glucocorticoid reactivity and behavioral phenotype in rx3-/- in larval zebrafish. Frontiers in Endocrinology.
Herget U, Ryu S, De Marco RJ (2023)

Active behaviour during early development shapes glucocorticoid reactivity. Scientific Reports.
Castillo-Ramírez L, Ryu S, De Marco RJ (2019)

Optogenetic Interpellation of Behavior Employing Unrestrained Zebrafish Larvae. Book Chapter.
Ryu S, De Marco RJ (2018)

Impaired path integration in mice with disrupted grid cell firing. Nature Neuroscience.
Gil M, Ancau M, Schlesiger MI, Neitz A, Allen K, De Marco RJ, Monyer H (2017)

Performance on innate behaviour during early development as a function of stress level. Scientific Reports.
Ryu S, De Marco RJ (2017)

Optogenetically enhanced pituitary corticotroph cell activity post-stress onset causes rapid organizing effects on behaviour. Nature Communications.
De Marco RJ, Thiemann T, Groneberg AH, Herget U, Ryu S (2016)

The Severity of Acute Stress Is Represented by Increased Synchronous Activity and Recruitment of Hypothalamic CRH Neurons. Journal of Neuroscience.
vom Berg-Maurer CM, Trivedi CA, Bollmann JH, De Marco RJ, Ryu S (2016)

Manipulation of Interrenal Cell Function in Developing Zebrafish Using Genetically Targeted Ablation and an Optogenetic Tool. Endocrinology.
Gutierrez-Triana JA, Herget U, Castillo-Ramirez LA, Lutz M, Yeh C-M, De Marco RJ, Ryu S (2015)

Positive taxis and sustained responsiveness to water motions in larval zebrafish. Frontiers in Neural Circuits.
Groneberg AH, Herget U, Ryu S, De Marco RJ (2015)

The behavior of larval zebrafish reveals stressor-mediated anorexia during early vertebrate development. Frontiers in Behavioral Neuroscience.
De Marco RJ, Groneberg AH, Yeh C-M, Treviño M, Ryu S (2014)

Optogenetic elevation of endogenous glucocorticoid level in larval zebrafish. Frontiers in Neural Circuits.
De Marco RJ, Groneberg AH, Yeh C-M, Castillo-Ramirez LA, Ryu S (2013)

Controlled variations in stimulus similarity during learning determine visual discrimination capacity in freely moving mice. Scientific Reports.
Trevino M, Oviedo T, Jendritza P, Li S-B, Koehr G, De Marco RJ (2013)

Discrimination learning with variable stimulus salience. International Archives of Medicine.
Treviño M, Aguilar-Garnica E, Jendritza P, Li S-B, Oviedo T, Köhr G, De Marco RJ (2011)

Decoding information in the honeybee dance: revisiting the tactile hypothesis. Animal Behaviour.
Gil M, De Marco RJ (2010)

Honeybees learn the sign and magnitude of reward variations. Journal of Experimental Biology.
Gil M, De Marco RJ (2009)

Side-specific reward memories in honeybees. Learning & Memory.
Gil M, Menzel R, De Marco RJ (2009)

Functional Fractals in Biology. Biological Theory.
Núñez JA, De Marco RJ (2009)

The response of the honeybee dance to uncertain rewards. Journal of Experimental Biology.
Seefeldt S, De Marco RJ (2008)

Learning and Memory in Communication and Navigation in Insects. Book Chapter.
De Marco RJ, Menzel R (2008)

Does an Insect’s Unconditioned Response to Sucrose Reveal Expectations of Reward? PLoS ONE.
Gil M, Menzel R, De Marco RJ (2008)

Variability in the encoding of spatial information by dancing bees. Journal of Experimental Biology.
De Marco RJ, Gurevitz JM, Menzel R (2008)

Learning reward expectations in honeybees. Learning & Memory.
Gil M, De Marco RJ, Menzel R (2007)

Technology and the Foundations of Biology. Biological Theory.
Núñez JA, De Marco RJ (2007)

Spatial memory, navigation and dance behaviour in Apis mellifera. Journal of Comparative Physiology A.
Menzel R, De Marco RJ, Greggers U (2006)

How bees tune their dancing according to their colony’s nectar influx: re-examining the role of the food-receivers’ ’eagerness’. Journal of Experimental Biology.
De Marco RJ (2006)

Apis mellifera bees acquire long-term olfactory memories within the colony. Biology Letters.
Gil M, De Marco RJ (2005)

Encoding spatial information in the waggle dance. Journal of Experimental Biology.
De Marco RJ, Menzel R (2005)

Does an increase in reward affect the precision of the encoding of directional information in the honeybee waggle dance? Journal of Comparative Physiology A.
De Marco RJ, Gil M, Farina WM (2005)

Olfactory learning by means of trophallaxis in Apis mellifera. Journal of Experimental Biology.
Gil M, De Marco RJ (2005)

Trophallaxis in forager honeybees (Apis mellifera): resource uncertainty enhances begging contacts? Journal of Comparative Physiology A.
De Marco RJ, Farina WM (2003)

Changes in food source profitability affect the trophallactic and dance behavior of forager honeybees ( Apis mellifera L.). Behavioral Ecology and Sociobiology.
De Marco RJ, Farina WM (2001)

Small-Scale Field Trial of a Sensing Device for Detecting Peridomestic Populations ofTriatoma infestans(Hemiptera: Reduviidae) in Northwestern Argentina. Journal of Medical Entomology.
De Marco RJ, Gürtler RE, Salomón OD, Chuit R (1999)