David Dreyer
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Explore the profile of David Dreyer including associated specialties, affiliations and a list of published articles.
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18
Citations
350
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Recent Articles
1.
Chen H, Li M, Manefjord H, Travers P, Salvador J, Muller L, et al.
iScience
. 2024 Apr;
27(5):109588.
PMID: 38646171
The seasonal migrations of insects involve a substantial displacement of biomass with significant ecological and economic consequences for regions of departure and arrival. Remote sensors have played a pivotal role...
2.
Wallace J, Reber T, Dreyer D, Beaton B, Zeil J, Warrant E
Front Insect Sci
. 2024 Mar;
3:1240400.
PMID: 38469488
The ability to measure flying insect activity and abundance is important for ecologists, conservationists and agronomists alike. However, existing methods are laborious and produce data with low temporal resolution (e.g....
3.
Wallace J, Dreyer D, Reber T, Khaldy L, Mathews-Hunter B, Green K, et al.
Front Insect Sci
. 2024 Mar;
3:1230501.
PMID: 38469465
Introduction: The Bogong moth is well known for its remarkable annual round-trip migration from its breeding grounds across eastern and southern Australia to its aestivation sites in the Australian Alps,...
4.
Chen H, Wan G, Li J, Ma Y, Reynolds D, Dreyer D, et al.
iScience
. 2024 Jan;
26(12):108281.
PMID: 38187194
Many species of insects undertake long-range, seasonally reversed migrations, displaying sophisticated orientation behaviors to optimize their migratory trajectories. However, when invasive insects arrive in new biogeographical regions, it is unclear...
5.
Franzke M, Kraus C, Gayler M, Dreyer D, Pfeiffer K, El Jundi B
J Exp Biol
. 2022 Jan;
225(3).
PMID: 35048981
Insects are well known for their ability to keep track of their heading direction based on a combination of skylight cues and visual landmarks. This allows them to navigate back...
6.
Beetz M, Kraus C, Franzke M, Dreyer D, Strube-Bloss M, Rossler W, et al.
Curr Biol
. 2021 Nov;
32(2):338-349.e5.
PMID: 34822766
For navigation, animals use a robust internal compass. Compass navigation is crucial for long-distance migrating animals like monarch butterflies, which use the sun to navigate over 4,000 km to their...
7.
A Guide for Using Flight Simulators to Study the Sensory Basis of Long-Distance Migration in Insects
Dreyer D, Frost B, Mouritsen H, Lefevre A, Menz M, Warrant E
Front Behav Neurosci
. 2021 Jun;
15:678936.
PMID: 34177479
Studying the routes flown by long-distance migratory insects comes with the obvious challenge that the animal's body size and weight is comparably low. This makes it difficult to attach relatively...
8.
Green K, Caley P, Baker M, Dreyer D, Wallace J, Warrant E
Aust Entomol
. 2021 Mar;
60(1):66-81.
PMID: 33777401
The Bogong moth is well known for its remarkable long-distance migration - a return journey from the plains of southeast Australia to the Australian Alps - as well as for...
9.
Franzke M, Kraus C, Dreyer D, Pfeiffer K, Beetz M, Stockl A, et al.
J Exp Biol
. 2020 Apr;
223(Pt 12).
PMID: 32341174
Monarch butterflies () are prominent for their annual long-distance migration from North America to their overwintering area in Central Mexico. To find their way on this long journey, they use...
10.
Dreyer D, El Jundi B, Kishkinev D, Suchentrunk C, Campostrini L, Frost B, et al.
J Exp Biol
. 2018 Dec;
221(Pt 24).
PMID: 30552290
Insect migrations are spectacular natural events and resemble a remarkable relocation of biomass between two locations in space. Unlike the well-known migrations of daytime flying butterflies, such as the painted...