Articles citing this article

The Citing articles tool gives a list of articles citing the current article.
The citing articles come from EDP Sciences database, as well as other publishers participating in CrossRef Cited-by Linking Program. You can set up your personal account to receive an email alert each time this article is cited by a new article (see the menu on the right-hand side of the abstract page).

Cited article:

Brood thermogenesis effects on the thermal dynamics in stingless bee nests (Melipona scutellaris)

Y. S. Roldão-Sbordoni, M. Hrncir and F. S. Nascimento
Insectes Sociaux (2024)

Thermodynamics, thermal performance and climate change: temperature regimes for bumblebee (Bombus spp.) colonies as examples of superorganisms

Peter G. Kevan, Pierre Rasmont and Baptiste Martinet
Frontiers in Bee Science 2 (2024)

Simulated Climate Warming Influenced Colony Microclimatic Conditions and Gut Bacterial Abundance of Honeybee Subspecies Apis mellifera ligustica and A. mellifera sinisxinyuan

Krouholé A. S. Coulibaly, Muhammad Z. Majeed, Samy Sayed and Kolo Yeo
Journal of Apicultural Science 66 (1) 15 (2022)

Temporal and spatial foraging patterns of three Asian honey bee species in Bangalore, India

Allison M. Young, Patrick L. Kohl, Benjamin Rutschmann, Ingolf Steffan-Dewenter, Axel Brockmann and Fred C. Dyer
Apidologie 52 (2) 503 (2021)

Foraging Behaviour of Apis mellifera scutellata and Hypotrigona gribodoi Bees in Monoculture and Polyculture Vegetable Gardens

Gugulethu Tarakini, Abel Chemura, Tawanda Tarakini, Nilton Mashavakure and Robert Musundire
Proceedings of the Zoological Society 74 (3) 294 (2021)

Regulation of Microclimatic Conditions inside Native Beehives and Its Relationship with Climate in Southern Spain

Sergio Gil-Lebrero, Francisco Javier Navas González, Victoria Gámiz López, Francisco Javier Quiles Latorre and José Manuel Flores Serrano
Sustainability 12 (16) 6431 (2020)

Tolerance and response of two honeybee species Apis cerana and Apis mellifera to high temperature and relative humidity

Xinyu Li, Weihua Ma, Jinshan Shen, et al.
PLOS ONE 14 (6) e0217921 (2019)

On the thermal limits for the use of stingless bees as pollinators in commercial greenhouses

Marília Araújo da Silva, Noeide da Silva Ferreira, Vinício Heidy da Silva Teixeira-Souza, et al.
Journal of Apicultural Research 56 (1) 81 (2017)

Internal ambience of bee colonies submitted to strengthening management by adding broods

Daniel de F. Brasil, Michelle de O. Guimarães, José Antonio D. Barbosa Filho and Breno M. Freitas
Engenharia Agrícola 33 (5) 902 (2013)

Ontogenic time and worker longevity in the Australian stingless bee, Austroplebeia australis

M. Halcroft, A. M. Haigh and R. Spooner-Hart
Insectes Sociaux (2013)

Comparative temperature tolerance in stingless bee species from tropical highlands and lowlands of Mexico and implications for their conservation (Hymenoptera: Apidae: Meliponini)

José Octavio Macías-Macías, José Javier G. Quezada-Euán, Francisca Contreras-Escareño, et al.
Apidologie 42 (6) 679 (2011)

The thermal properties of beeswaxes: unexpected findings

Robert Buchwald, Michael D. Breed and Alan R. Greenberg
Journal of Experimental Biology 211 (1) 121 (2008)

Capacidade de resistência a altas e baixas temperaturas em operárias de Scaptotrigona postica (Latreille) (Hymenoptera, Apidae) durante os períodos de verão e inverno

Oilton José Dias Macieira and Edson Aparecido Proni
Revista Brasileira de Zoologia 21 (4) 893 (2004)