Menu

Javascript is not activated in your browser. This website needs javascript activated to work properly.

Observations of movement dynamics of flying insects using high resolution lidar

Author:
  • Carsten Kirkeby
  • Maren Wellenreuther
  • Mikkel Brydegaard
Publishing year: 2016-07-04
Language: English
Publication/Series: Scientific Reports
Volume: 6
Document type: Journal article
Publisher: Nature Publishing Group

Abstract english

Insects are fundamental to ecosystem functioning and biodiversity, yet the study of insect movement, dispersal and activity patterns remains a challenge. Here we present results from a novel high resolution laser-radar (lidar) system for quantifying flying insect abundance recorded during one summer night in Sweden. We compare lidar recordings with data from a light trap deployed alongside the lidar. A total of 22808 insect were recorded, and the relative temporal quantities measured matched the quantities recorded with the light trap within a radius of 5 m. Lidar records showed that small insects (wing size <2.5 mm 2 in cross-section) moved across the field and clustered near the light trap around 22:00 local time, while larger insects (wing size >2.5 mm 2 in cross-section) were most abundant near the lidar beam before 22:00 and then moved towards the light trap between 22:00 and 23:30. We could distinguish three insect clusters based on morphology and found that two contained insects predominantly recorded above the field in the evening, whereas the third was formed by insects near the forest at around 21:30. Together our results demonstrate the capability of lidar for distinguishing different types of insect during flight and quantifying their movements.

Keywords

  • Behavioral Sciences Biology

Other

Published
  • ISSN: 2045-2322
Mikkel Brygdegaard
E-mail: mikkel.brydegaard [at] forbrf.lth.se

Associate senior lecturer

Combustion Physics

+46 46 222 76 57

E424

14

Centre for Animal Movement Research
Evolutionary Ecology, Department of Biology
Ecology building S-223 62 Lund Sweden