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Tracking the Migration of the Monarch Butterflies with the World's Smallest Computer

Published: 27 May 2022 Publication History

Abstract

Each fall, millions of monarch butterflies across the U.S. and Canada migrate up to 4,000 km to overwinter in the same cluster of mountaintops in central Mexico. In spring, these migrants mate and remigrate northwards to repopulate their northern breeding territory over 2-4 partially overlapping generations. Because each migrant monarch completes only part of this round trip and does not return to the overwintering site, this navigational task cannot be learned from the prior generation. The number of monarchs completing the journey has dramatically declined in the past decades, coincident with the decreased availability of their milkweed host plant. The U.S., Mexico, and Canada have invested tremendous resources into monarch conservation efforts, including enacting specific policy initiatives, public outreach programs, and habitat protection and restoration projects. The US invested over $11 million between 2015-2017 alone [1]. Developing a tracking technology for monarch can be a key in these efforts, providing, for instance, detailed understanding of habitat use during migratory flight and dependence on weather conditions. Furthermore, it can significantly benefit animal research, and agricultural and environmental science.

References

[1]
NFSF. [n.d.]. Monarch Butterfly Conservation Fund. https://www.nfwf.org/sites/default/files/ monarch/Documents/three-year-report.pdf
[2]
Lotek. 2020. PinPoint GPS Beacon for birds & bats. https://www.lotek.com/products/pinpointgps- beacon/
[3]
P. Taylor, T. Crewe, S. Mackenzie, D. Lepage, Y. Aubry, Z. Crysler, G. Finney, C. Francis, C. Guglielmo, D. Hamilton, R.L. Holberton, P.H. Loring, G.W. Mitchell, D. Norris, J. Paquet, R.A. Ronconi, J. Smetzer, P.A. Smith, L.J. Welch, and B.K. Woodworth. 2017. The Motus wildlife tracking system: A collaborative research network to enhance the understanding of wildlife movement. Avian Conservation and Ecology,18 (03 2017), 8.
[4]
S.M. Knight, G.M. Pitman, D.T.T. Flockhart, and D.R. Norris. 2019. Radio-tracking reveals how wind and temperature influence the pace of daytime insect migration. Biology Letters, 15, 7 (2019), 20190327.
[5]
J.W. Fox. 2018. Intigeo series geolocator. http:// www.migratetech.co.uk/IntigeoSummary.pdf
[6]
I. Lee, E. Moon, Y. Kim, J. Phillips, and D. Blaauw. 2019. A 10mm3 Light-Dose Sensing IoT2 System With 35-To-339nW 10-To-300klx Light-Dose- To-Digital Converter. 2019 Symposium on VLSI Circuits. C180--C181.
[7]
K. Yang, Q. Dong, W. Jung, Y. Zhang, M. Choi, D. Blaauw, and D. Sylvester. 2017. 9.2 A 0.6nJ -0.22/+0.19°C inaccuracy temperature sensor using exponential subthreshold oscillation dependence. IEEE International Solid-State Circuits Conference (ISSCC). 160--161.
[8]
Y. Lee, S. Bang, I. Lee, Y. Kim, G. Kim, M. H. Ghaed, P. Pannuto, P. Dutta, D. Sylvester, and D. Blaauw. Jan. 2013. A modular 1 mm3 die-stacked sensing platform with low power I2C inter-die communication and multi-modal energy harvesting. IEEE Journal of Solid-State Circuits, vol. 48, no. 1, 229--243.
[9]
L. Chuo, Y. Shi, Z. Luo, N. Chiotellis, Z. Foo, G. Kim, Y. Kim, A. Grbic, D. Wentzloff, H. Kim, and D. Blaauw. 2017. 7.4 A 915MHz asymmetric radio using Q-enhanced amplifier for a fully integrated 3×3×3mm3 wireless sensor node with 20m non-line-of-sight communication. IEEE International Solid-State Circuits Conference (ISSCC). 132--133.
[10]
E. Moon, I. Lee, D. Blaauw, and J.D. Phillips. 2019. High-efficiency photovoltaic modules on a chip for millimeter-scale energy harvesting. Progress in photovoltaics: Research and applications 27, 6, 540--546.
[11]
S. Oh, M. Cho, X. Wu, Y. Kim, L. Chuo, W. Lim, P. Pannuto, S. Bang, K. Yang, H. Kim, D. Sylvester, and D. Blaauw. 2019. IoT2 - the internet of tiny things: Realizing mm-Scale sensors through 3D die stacking. Design, Automation Test in Europe Conference Exhibition. 686--691.
[12]
R.B. Brander and W.W. Cochran. 1969. Wildlife Management Techniques (The Wildlife Society, Washington, DC, USA, "Radio location telemetry," 95--103).
[13]
CS. Bick*, I. Lee*, D. Blaauw, T. Coote, A.E. Haponski, and D.Ó. Foighil. June 2021. Millimeter-sized smart sensors reveal that a solar refuge protects tree snail Partula hyalina from extirpation. Communication Biology, vol. 4, no. 1. (* equally contributed).
[14]
L.J. Brindza, L. Brower, A. Davis, and T.V. Hook. 2008. Comparitive success of Monarch butterfly migration to overwintering sites in Mexico from inland and coastal sites. Journal of the Lepidopterists' Society, 62, 4, 189--200.
[15]
M. Yang, R. Hsiao, G. Carichner, K. Ernst, J. Lim, D.A. Green, I. Lee, D. Blaauw, and H.S. Kim. 2021. Migrating Monarch butterfly localization using multi-modal sensor fusion neural networks. 2020 28th European Signal Processing Conference (EUSIPCO), 1792--1796.
  1. Tracking the Migration of the Monarch Butterflies with the World's Smallest Computer

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    cover image GetMobile: Mobile Computing and Communications
    GetMobile: Mobile Computing and Communications  Volume 26, Issue 1
    March 2022
    34 pages
    ISSN:2375-0529
    EISSN:2375-0537
    DOI:10.1145/3539668
    Issue’s Table of Contents
    Permission to make digital or hard copies of part or all of this work for personal or classroom use is granted without fee provided that copies are not made or distributed for profit or commercial advantage and that copies bear this notice and the full citation on the first page. Copyrights for third-party components of this work must be honored. For all other uses, contact the Owner/Author.

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    Association for Computing Machinery

    New York, NY, United States

    Publication History

    Published: 27 May 2022
    Published in SIGMOBILE-GETMOBILE Volume 26, Issue 1

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