Heat domes increase vulnerability of native stingless bees by simultaneously weakening key survival traits

Heatwave events increase in frequency and duration, yet there is a strong gap in assessing their nonlethal effects on tropical insects, including beneficial social species. The stingless bees are a highly diverse group of pantropical pollinators that provide key ecosystem services. Here, we simultan...

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Published in:The Science of the total environment Vol. 957; p. 177705
Main Authors: Quezada-Euán, J.J.G., Medina, R.G., Soto-Correa, A., Pech-Jiménez, C., Paxton, R.J., Solís, T., Aragón-Pech, R., Moo-Valle, H.
Format: Journal Article
Language:English
Published: Netherlands Elsevier B.V 20.12.2024
Subjects:
adults
Animals
Bees - physiology
Body size
ecosystems
environment
Female
heat
heat stress
Heat-Shock Response - physiology
Heatwave
Hot Temperature - adverse effects
immatures
immune response
Longevity
Male
Melipona
meliponiculture
pupae
species
Stingless bee
stingless bees
Symmetry
Melipona
Stingless bee
Heatwave
Longevity
Body size
Symmetry
ISSN:0048-9697, 1879-1026, 1879-1026
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Abstract Heatwave events increase in frequency and duration, yet there is a strong gap in assessing their nonlethal effects on tropical insects, including beneficial social species. The stingless bees are a highly diverse group of pantropical pollinators that provide key ecosystem services. Here, we simultaneously analyzed for the first time the effect of sublethal heat stress (HS) during immature (pupal) development on adult morphology (size, shape, symmetry) and immune response of the three castes/sexes in stingless bee colonies: workers, unmated queens (gynes) and males, as well as its impact on the onset of foraging and lifespan in workers. Individuals experimentally heat stressed during development had smaller body size and reduced symmetry as adults compared with control, non-heat stressed (NHS) individuals, though the strength of the effects of HS also varied between castes and sexes. Notably, males were more prone to the effects of HS compared with workers, and less so gynes; HS reduced the immune response of males, though not that of workers or queens. Workers had significantly earlier onset of foraging and a shorter lifespan when exposed as immatures to HS. Under a worst-case scenario, knock-on negative impacts on individual survival caused by HS could compromise colony fitness. In the long-term, heatwaves may also have repercussions for the persistence of stingless bee species, the sustainability of key ancestral activities like meliponiculture and ecosystem services. Measures to ameliorate the effect of climatic warming are urgently needed to protect these pollinators, which represent an iconic world heritage. [Display omitted] •First assessment of simultaneous impact of simulated heatwave on stingless bee key survival traits•Elevated yet sublethal temperatures compromise adult morphology, immunity, survival•Impact of high temperatures great for males, middle for workers, lowest for gynes•Increasing intensity of heatwaves projected to impact individual and colony fitness
AbstractList Heatwave events increase in frequency and duration, yet there is a strong gap in assessing their nonlethal effects on tropical insects, including beneficial social species. The stingless bees are a highly diverse group of pantropical pollinators that provide key ecosystem services. Here, we simultaneously analyzed for the first time the effect of sublethal heat stress (HS) during immature (pupal) development on adult morphology (size, shape, symmetry) and immune response of the three castes/sexes in stingless bee colonies: workers, unmated queens (gynes) and males, as well as its impact on the onset of foraging and lifespan in workers. Individuals experimentally heat stressed during development had smaller body size and reduced symmetry as adults compared with control, non-heat stressed (NHS) individuals, though the strength of the effects of HS also varied between castes and sexes. Notably, males were more prone to the effects of HS compared with workers, and less so gynes; HS reduced the immune response of males, though not that of workers or queens. Workers had significantly earlier onset of foraging and a shorter lifespan when exposed as immatures to HS. Under a worst-case scenario, knock-on negative impacts on individual survival caused by HS could compromise colony fitness. In the long-term, heatwaves may also have repercussions for the persistence of stingless bee species, the sustainability of key ancestral activities like meliponiculture and ecosystem services. Measures to ameliorate the effect of climatic warming are urgently needed to protect these pollinators, which represent an iconic world heritage.
Heatwave events increase in frequency and duration, yet there is a strong gap in assessing their nonlethal effects on tropical insects, including beneficial social species. The stingless bees are a highly diverse group of pantropical pollinators that provide key ecosystem services. Here, we simultaneously analyzed for the first time the effect of sublethal heat stress (HS) during immature (pupal) development on adult morphology (size, shape, symmetry) and immune response of the three castes/sexes in stingless bee colonies: workers, unmated queens (gynes) and males, as well as its impact on the onset of foraging and lifespan in workers. Individuals experimentally heat stressed during development had smaller body size and reduced symmetry as adults compared with control, non-heat stressed (NHS) individuals, though the strength of the effects of HS also varied between castes and sexes. Notably, males were more prone to the effects of HS compared with workers, and less so gynes; HS reduced the immune response of males, though not that of workers or queens. Workers had significantly earlier onset of foraging and a shorter lifespan when exposed as immatures to HS. Under a worst-case scenario, knock-on negative impacts on individual survival caused by HS could compromise colony fitness. In the long-term, heatwaves may also have repercussions for the persistence of stingless bee species, the sustainability of key ancestral activities like meliponiculture and ecosystem services. Measures to ameliorate the effect of climatic warming are urgently needed to protect these pollinators, which represent an iconic world heritage.Heatwave events increase in frequency and duration, yet there is a strong gap in assessing their nonlethal effects on tropical insects, including beneficial social species. The stingless bees are a highly diverse group of pantropical pollinators that provide key ecosystem services. Here, we simultaneously analyzed for the first time the effect of sublethal heat stress (HS) during immature (pupal) development on adult morphology (size, shape, symmetry) and immune response of the three castes/sexes in stingless bee colonies: workers, unmated queens (gynes) and males, as well as its impact on the onset of foraging and lifespan in workers. Individuals experimentally heat stressed during development had smaller body size and reduced symmetry as adults compared with control, non-heat stressed (NHS) individuals, though the strength of the effects of HS also varied between castes and sexes. Notably, males were more prone to the effects of HS compared with workers, and less so gynes; HS reduced the immune response of males, though not that of workers or queens. Workers had significantly earlier onset of foraging and a shorter lifespan when exposed as immatures to HS. Under a worst-case scenario, knock-on negative impacts on individual survival caused by HS could compromise colony fitness. In the long-term, heatwaves may also have repercussions for the persistence of stingless bee species, the sustainability of key ancestral activities like meliponiculture and ecosystem services. Measures to ameliorate the effect of climatic warming are urgently needed to protect these pollinators, which represent an iconic world heritage.
Heatwave events increase in frequency and duration, yet there is a strong gap in assessing their nonlethal effects on tropical insects, including beneficial social species. The stingless bees are a highly diverse group of pantropical pollinators that provide key ecosystem services. Here, we simultaneously analyzed for the first time the effect of sublethal heat stress (HS) during immature (pupal) development on adult morphology (size, shape, symmetry) and immune response of the three castes/sexes in stingless bee colonies: workers, unmated queens (gynes) and males, as well as its impact on the onset of foraging and lifespan in workers. Individuals experimentally heat stressed during development had smaller body size and reduced symmetry as adults compared with control, non-heat stressed (NHS) individuals, though the strength of the effects of HS also varied between castes and sexes. Notably, males were more prone to the effects of HS compared with workers, and less so gynes; HS reduced the immune response of males, though not that of workers or queens. Workers had significantly earlier onset of foraging and a shorter lifespan when exposed as immatures to HS. Under a worst-case scenario, knock-on negative impacts on individual survival caused by HS could compromise colony fitness. In the long-term, heatwaves may also have repercussions for the persistence of stingless bee species, the sustainability of key ancestral activities like meliponiculture and ecosystem services. Measures to ameliorate the effect of climatic warming are urgently needed to protect these pollinators, which represent an iconic world heritage. [Display omitted] •First assessment of simultaneous impact of simulated heatwave on stingless bee key survival traits•Elevated yet sublethal temperatures compromise adult morphology, immunity, survival•Impact of high temperatures great for males, middle for workers, lowest for gynes•Increasing intensity of heatwaves projected to impact individual and colony fitness
ArticleNumber 177705
Author Aragón-Pech, R.
Quezada-Euán, J.J.G.
Medina, R.G.
Soto-Correa, A.
Moo-Valle, H.
Pech-Jiménez, C.
Paxton, R.J.
Solís, T.
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  fullname: Quezada-Euán, J.J.G.
  email: javier.quezada@correo.uady.mx
  organization: Departamento de Apicultura Tropical, Campus de Ciencias Biológicas y Agropecuarias, Universidad Autónoma de Yucatán, Mérida, Mexico
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  surname: Medina
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  givenname: A.
  surname: Soto-Correa
  fullname: Soto-Correa, A.
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  surname: Paxton
  fullname: Paxton, R.J.
  organization: Institute for Biology, Martin Luther University Halle-Wittenberg, Halle (Saale), Germany
– sequence: 6
  givenname: T.
  surname: Solís
  fullname: Solís, T.
  organization: Departamento de Apicultura Tropical, Campus de Ciencias Biológicas y Agropecuarias, Universidad Autónoma de Yucatán, Mérida, Mexico
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  givenname: R.
  surname: Aragón-Pech
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BackLink https://www.ncbi.nlm.nih.gov/pubmed/39579888$$D View this record in MEDLINE/PubMed
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Keywords Melipona
Stingless bee
Heatwave
Longevity
Body size
Symmetry
Language English
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Snippet Heatwave events increase in frequency and duration, yet there is a strong gap in assessing their nonlethal effects on tropical insects, including beneficial...
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SubjectTerms adults
Animals
Bees - physiology
Body size
ecosystems
environment
Female
heat
heat stress
Heat-Shock Response - physiology
Heatwave
Hot Temperature - adverse effects
immatures
immune response
Longevity
Male
Melipona
meliponiculture
pupae
species
Stingless bee
stingless bees
Symmetry
Title Heat domes increase vulnerability of native stingless bees by simultaneously weakening key survival traits
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https://www.ncbi.nlm.nih.gov/pubmed/39579888
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