Terry F Houston (2020)
On the remarkable nesting biology of an Australian bee in the genus
Trichocolletes
Cockerell (Hymenoptera: Colletidae)
.
Austral Entomology59: 593.
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Jerome G. Rozen, Bryan N. Danforth, Corey Shepard Smith, Brenna L. Decker, Nicholas N. Dorian, Delina Dority, Shelby Kerrin Kilpatrick, Erin Krichilsky, Angela N. Laws, Katherine R. Urban-Mead (2019)
Early Nesting Biology of the Bee Caupolicana yarrowi (Cresson) (Colletidae: Diphaglossinae) and Its Cleptoparasite Triepeolus grandis (Friese) (Apidae: Nomadinae).
American Museum Novitates2019: 1.
DOI: 10.1206/3931.1
Fernanda Figueiredo de Araujo, Priscila de Cássia Souza Araújo, Estefane Siqueira, Isabel Alves-dos-Santos, Reisla Oliveira, Stefan Dötterl, Clemens Schlindwein (2020)
Nocturnal bees exploit but do not pollinate flowers of a common bat-pollinated tree.
Arthropod-Plant Interactions14: 785.
DOI: 10.1007/s11829-020-09784-3
Rodolfo Liporoni, Guaraci Duran Cordeiro, Paulo Inácio Prado, Clemens Schlindwein, Eric James Warrant, Isabel Alves-dos-Santos (2020)
Light intensity regulates flower visitation in Neotropical nocturnal bees.
Scientific Reports10: .
DOI: 10.1038/s41598-020-72047-x
Guaraci D. Cordeiro, Rodolfo Liporoni, Carolina A. Caetano, Cristiane Krug, Carlos A. Martínez-Martínez, Herbeson O. J. Martins, Renan K. O. A. Cardoso, Fernanda F. Araujo, Priscila C. S. Araújo, Reisla Oliveira, Clemens Schlindwein, Eric J. Warrant, Stefan Dötterl, Isabel Alves-dos-Santos (2021)
Nocturnal Bees as Crop Pollinators.
Agronomy11: 1014.
DOI: 10.3390/agronomy11051014
Luciano Zapata, Verónica Krapovickas, M. Sol Raigemborn, Sergio D. Matheos (2016)
Bee cell trace fossils associations on paleosols from the Santa Cruz Formation: Palaeoenvironmental and palaeobiological implications.
Palaeogeography, Palaeoclimatology, Palaeoecology459: 153.
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Laura C. Sarzetti, Jorge F. Genise, Eduardo S. Bellosi, Liliana F. Cantil, Conrad Labandeira (2017)
A new interpretation and palaeoecological significance of the fossil bee cell cluster Rosellichnus patagonicus
(Celliformidae).
Papers in Palaeontology3: 363.
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Jerome G. Rozen, Terry F. Houston (2022)
Descriptions of the Mature Larvae of Three Australian Ground-Nesting Bees(Hymenoptera: Colletidae: Diphaglossinae and Neopasiphaeinae).
American Museum Novitates2022: .
DOI: 10.1206/3989.1
François Bétard (2021)
Insects as zoogeomorphic agents: an extended review.
Earth Surface Processes and Landforms46: 89.
DOI: 10.1002/esp.4944
Rafael R. Ferrari, Rodolfo C. C. Arantes, Fernando A. Silveira (2016)
A New Species ofMydrosomellaMichener (Hymenoptera: Colletidae) from the Semiarid Caatinga Domain, Northeastern Brazil, with an Identification Key for the Species in the Genus.
Annales Zoologici66: 403.
DOI: 10.3161/00034541ANZ2016.66.3.006
LAURA C. SARZETTI, JORGE F. GENISE, PABLO DINGHI, M. ALEJANDRA MOLINA (2019)
AN OVERVIEW OF HYMENOPTERAN COCOONS AS A TOOL TO INTERPRET ICHNOSPECIES OF FICTOVICHNUS (PALLICHNIDAE) AND OTHER FOSSIL COCOONS OF WASPS.
PALAIOS34: 562.
DOI: 10.2110/palo.2019.053
Rocío Ana González-Vaquero (2022)
Solitary and semisocial behaviour in the Corynura group: new findings in a clade sister to all other Augochlorini bees (Hymenoptera: Halictidae).
Journal of Natural History56: 1841.
DOI: 10.1080/00222933.2022.2134833
Laura C. Sarzetti, Pablo A. Dinghi, Jorge F. Genise, Emilio Bedatou, Mariano Verde, Jason Dunlop (2014)
Curved fossil bee cells as tools for reconstructing the evolutionary history and palaeogeographical distribution of Diphaglossinae (Apoidea, Colletidae).
Palaeontology57: 447.
DOI: 10.1111/pala.12074