Projected distribution shifts of resident monarch butterflies and consequences for migratory monarchs

Projected distribution shifts of resident monarch butterflies and consequences for migratory monarchs

•Large increase in suitable area for the winter breeding populations by 2100.•Increased overlap between the distribution of migratory and resident monarchs.•Increased risk of disease spread from resident monarchs to the migratory monarchs. The charismatic migratory populations of monarch butterflies...

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Veröffentlicht in:Journal for nature conservation 2024-12, Vol.82, p.126723, Article 126723
Hauptverfasser: Momeni-Dehaghi, Iman, Fahrig, Lenore, Bennett, Joseph R., Rytwinski, Trina, Oberhauser, Karen S., Sheehan, Nancy A., Mitchell, Greg W.
Format: Artikel
Sprache:eng
Schlagworte:
Apocynaceae
Climate change
Danaus plexippus
Habitat suitability modeling
larvae
MaxEnt
meteorological data
migratory behavior
natural resources conservation
niches
North America
parasite load
parasites
Range contraction and expansion
reproduction
risk
Species distribution modeling
spring
summer
travel
winter
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container_end_page
container_issue
container_start_page 126723
container_title Journal for nature conservation
container_volume 82
creator Momeni-Dehaghi, Iman
Fahrig, Lenore
Bennett, Joseph R.
Rytwinski, Trina
Oberhauser, Karen S.
Sheehan, Nancy A.
Mitchell, Greg W.
description •Large increase in suitable area for the winter breeding populations by 2100.•Increased overlap between the distribution of migratory and resident monarchs.•Increased risk of disease spread from resident monarchs to the migratory monarchs. The charismatic migratory populations of monarch butterflies have declined precipitously in North America. A contributing threat might be the expansion of winter breeding populations in the southern portions of their historical eastern and western summer breeding ranges. Recent research suggests individuals from winter breeding populations are prone to high parasite burdens, resulting in lower fitness compared to migratory counterparts. Temporal and spatial overlap between these individuals and migratory monarchs in both fall and spring mean that interbreeding and use of the same host plants could result in transfer of parasites, especially the debilitating neogregarine Ophryocystis elektroscirrha, increasing the parasite load in migrating populations. We aimed to predict how climate change could affect the distribution of winter breeding monarchs in North America. We used ecological niche modeling of monarch larval observations for winter and current climate data to predict the current and future distributions of winter breeding monarchs across North America. Our analyses predict up to a 38% and 160% increase and a 574 and 340 km northward shift in suitable area for winter breeding monarchs in response to climate change by 2100 for eastern and western migratory populations, respectively. Our results support concerns over potential risk of disease spread from resident monarchs to the migratory monarch populations. In both eastern and western migratory populations this is due to an increase in overlap between the resident population and the areas through which the migratory populations travel during fall and spring migrations. Our results support calls for controlling the spread of non-native tropical milkweed, as winter breeding monarchs depend on this plant for reproduction.
doi_str_mv 10.1016/j.jnc.2024.126723
format Article
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source Elsevier ScienceDirect Journals
subjects Apocynaceae
Climate change
Danaus plexippus
Habitat suitability modeling
larvae
MaxEnt
meteorological data
migratory behavior
natural resources conservation
niches
North America
parasite load
parasites
Range contraction and expansion
reproduction
risk
Species distribution modeling
spring
summer
travel
winter
title Projected distribution shifts of resident monarch butterflies and consequences for migratory monarchs
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