Optimization of treatment blocking the gustatory sense and feeding ethogram of red imported fire ant, Solenopsis invicta Buren (Hymenoptera: Formicidae) to sugar

[1]  Yu-rong He,et al.  Effect of constant and fluctuating temperature on the circadian foraging rhythm of the red imported fire ant, Solenopsis invicta Buren (Hymenoptera: Formicidae) , 2020, Saudi journal of biological sciences.

[2]  Lei Wang,et al.  Prevalence and management of Solenopsis invicta in China , 2020 .

[3]  Rei Kakazu,et al.  Taste recognition through tarsal gustatory sensilla potentially important for host selection in leaf beetles (Coleoptera: Chrysomelidae) , 2020, Scientific Reports.

[4]  M. R. Araya,et al.  Feeding behavior pattern and glycosylated hemoglobin in people with type 2 diabetes at the beginning and end of an educational intervention , 2020 .

[5]  M. Hoddle,et al.  Biodegradable alginate hydrogel bait delivery system effectively controls high-density populations of Argentine ant in commercial citrus , 2020, Journal of Pest Science.

[6]  Yu-rong He,et al.  Rhythms in Foraging Behavior and Expression Patterns of the Foraging Gene in Solenopsis invicta (Hymenoptera: Formicidae) in relation to Photoperiod , 2019, Journal of Economic Entomology.

[7]  Yijuan Xu,et al.  A simple and efficient method for preventing ant escape (Hymenoptera: Formicidae) , 2019 .

[8]  Lei Wang,et al.  Impact of the red imported fire ant Solenopsis invicta Buren on biodiversity in South China: A review , 2019, Journal of Integrative Agriculture.

[9]  H. M. Tahir,et al.  Effect of Milking Method, Diet, and Temperature on Venom Production in Scorpions , 2018, Journal of insect science.

[10]  J. Yin,et al.  Using two-sex life tables to determine fitness parameters of four Bactrocera species (Diptera: Tephritidae) reared on a semi-artificial diet , 2017, Bulletin of Entomological Research.

[11]  P. Sørensen,et al.  Sugar and amino acid preference in the black garden ant Lasius niger (L.). , 2017, Journal of insect physiology.

[12]  R. Crnjar,et al.  Morphological and electrophysiological analysis of tarsal sensilla in the medfly Ceratitis capitata (Wiedemann, 1824) (Diptera: Tephritidae) , 2016 .

[13]  A. Agnihotri,et al.  Gustatory receptors in Lepidoptera: chemosensation and beyond , 2016, Insect molecular biology.

[14]  K. Hashimoto,et al.  Functional dissociation in sweet taste receptor neurons between and within taste organs of Drosophila , 2016, Nature Communications.

[15]  John R Carlson,et al.  Drosophila Chemoreceptors: A Molecular Interface Between the Chemical World and the Brain. , 2015, Trends in genetics : TIG.

[16]  M. Willis,et al.  One antenna, two antennae, big antennae, small: total antennae length, not bilateral symmetry, predicts odor-tracking performance in the American cockroach Periplaneta americana , 2015, The Journal of Experimental Biology.

[17]  Jenn‐Ming Yang,et al.  Effect of diamondoids on the microstructure and mechanical behavior of nanostructured Mg-matrix nanocomposites , 2015 .

[18]  R. Barrozo,et al.  Bitter stimuli modulate the feeding decision of a blood-sucking insect via two sensory inputs , 2014, Journal of Experimental Biology.

[19]  C. Detrain,et al.  Sensitivity and feeding efficiency of the black garden ant Lasius niger to sugar resources. , 2014, Journal of insect physiology.

[20]  C. Montell,et al.  Peripheral Coding of Taste , 2014, Neuron.

[21]  M. Giurfa,et al.  The tarsal taste of honey bees: behavioral and electrophysiological analyses , 2014, Front. Behav. Neurosci..

[22]  F. Ge,et al.  Tarsal taste neurons of Helicoverpa assulta (Guenée) respond to sugars and amino acids, suggesting a role in feeding and oviposition. , 2011, Journal of insect physiology.

[23]  M. Srinivasan,et al.  Lateralization of Olfaction in the Honeybee Apis mellifera , 2006, Current Biology.

[24]  W. Weisser,et al.  The importance of antennae for pea aphid wing induction in the presence of natural enemies. , 2005, Bulletin of entomological research.

[25]  Joe N. Perry,et al.  Insect behavioural ecology and other factors affecting the control efficacy of agro-ecosystem diversification strategies , 2005 .

[26]  Walter R. Tschinkel,et al.  Quantification and modification of worker size variation in the fire antSolenopsis invicta , 1981, Insectes Sociaux.

[27]  Walter R. Tschinkel,et al.  Regulation of Diet in the Fire Ant, Solenopsis invicta , 1999, Journal of Insect Behavior.

[28]  Walter R. Tschinkel,et al.  The effect of colony size and starvation on food flow in the fire ant, Solenopsis invicta (Hymenoptera: Formicidae) , 1980, Behavioral Ecology and Sociobiology.

[29]  Reinhard F. Stocker,et al.  The organization of the chemosensory system in Drosophila melanogaster: a rewiew , 2004, Cell and Tissue Research.

[30]  S. Vinson Insect Life: Invasion of the Red Imported Fire Ant (Hymenoptera: Formicidae) , 1997 .

[31]  S. Ramaswamy,et al.  Sensory cues and receptors for oviposition by Heliothis virescens , 1987 .

[32]  L. Schoonhoven,et al.  TARSAL CONTACT CHEMOSENSORY HAIRS OF THE LARGE WHITE BUTTERFLY PIERIS BRASSICAE AND THEIR POSSIBLE RÔLE IN OVIPOSITION BEHAVIOUR , 1973 .