ez-Migration Trap II

Dual-headed design for flight direction studies

The ez-Migration trap—a two-headed Malaise trap—is a modular, stand-alone flight-intercept device for passive insect sampling.  Operating without bait, it intercepts insects on both sides of a central barrier and directs them into separate bottles for direction-resolved sampling within a single deployment.  Shock-corded poles and clip-on fittings enable rapid setup where natural supports are lacking, supporting studies of insect migration and short-range dispersal.

Detailed Description

Classical Malaise traps often exhibit directional asymmetry, with collection heads filling unevenly depending on sun position, wind direction, or insect flight paths.  By placing a head at each end, the ez-Migration trap keeps catches from opposing directions separate, making orientation effects explicit so they can be quantified and compared within the same deployment.

Assembly mirrors that of the ez-Malaise trap: shock-corded poles connect in minutes, clips attach the fabric body, and stability in open landscapes requires a minimum of two guy ropes (add more in windy conditions).  Components such as the collection head, fabric body, and shock-corded poles can be replaced individually, reducing downtime and extending service life.

Each inverted Y-shaped collection head is molded from solid polycarbonate (PC) for durability, UV resistance, and high transparency.  Ventilation ports, closed by default, allow optional airflow, and some field reports note increased catch efficiency with enhanced airflow.  A removable moth excluder with 1 × 1 cm grid spacing discourages larger insects (e.g., Lepidoptera, Odonata) and helps reduce wing-scale contamination.  Seat each head on the supporting pole rather than the fabric body to maintain alignment and prevent seam stress.

Removable Moth Excluder

Collection Head Placement

Functional Advantages

• Bidirectional sampling: Separate heads preserve catches from each direction, enabling paired, within-deployment comparisons and clearer movement signals.
• Rapid setup: Shock-corded poles and clip-on assembly enable quick deployment without external supports.
• Modular build: Replaceable parts minimize downtime and extend service life.
• Collection heads: Durable polycarbonate with optional airflow vents and a removable 1 × 1 cm moth excluder to reduce contamination.
• Portable structure: Nearly freestanding; use at least two guy ropes for stability in open landscapes.

Field Notes

• Placement & orientation: Position across movement corridors (trails, forest edges, riparian strips) and orient roughly perpendicular to expected insect flight paths; avoid tight vegetation that blocks airflow.
• Head seating: Rest each head on the end supporting pole, not the fabric; keep intakes free of obstacles, tie securely, and recheck after line adjustments.
• Directional metadata: Label heads consistently (e.g., A/B or compass bearings) and record orientation at setup for directional comparisons.
• Sun & wind notes: Record conditions at deployment and servicing to aid interpretation of directional differences.
• Stability: Use at least two guy ropes (add more in wind); keep roof geometry taut and re-tension after strong winds.
• Servicing & labels: Empty/replace bottles regularly (e.g., weekly); label with trap ID, head ID, date/time, preservative, and orientation notes.
• Study design: For multiple traps, space 50–150 m apart; log trap-days and covariates (weather, vegetation, edge distance).  For short-term surveys, reposition across habitat edges or along movement axes and record coordinates/orientations.

Guidance disclaimer

ℹ︎Disclaimer: Field Notes provide practical guidance and examples.  Actual procedures should be adapted to site conditions, study objectives, and institutional protocols.  Users are responsible for safe deployment and compliance with local regulations.

Pack Contents

• 1 × Fabric Trap Body
• 2 × Shock-corded Poles (L459 cm)
• 2 × Collection Heads (pre-installed)
• 6 × Collection Bottles (2 pre-installed)
  alternative option

  Nalgene™ 2105-0016 wide-mouth bottles (Ø53 mm closure size; unavailable from this site) are compatible with the supplied bottles.

• 10 × Guy Ropes
• 10 × Plastic X-Stakes
• 8 × Alloy Pin Stakes
• 1 × Carrying Bag

Prepare extra guy ropes and stakes as needed.  Additional replacement parts are listed under the Parts tab.

Recent Literature Related to This Product Line (click to search more) ↗︎

• The Hemiptera (Insecta) of Canada: Constructing a Reference Library of DNA Barcodes.  Gwiazdowski et al. (2015).  PLoS One, 10(4), e0125635.
• DNA barcoding in diverse educational settings: five case studies.  Henter et al. (2016).  Phil. Trans. R. Soc. B, 371(1702), 20150340.
• The School Malaise Trap Program: coupling educational outreach with scientific discovery.  Steinke et al. (2017).  PLoS Biology, 15(4), e2001829.
• Arthropods in modern resins reveal if amber accurately recorded forest arthropod communities.  Solórzano Kraemer et al. (2018).  PNAS, 115(26), 6739–6744.
• Expedited assessment of terrestrial arthropod diversity by coupling Malaise traps with DNA barcoding.  deWaard et al. (2019).  Genome, 62(3), 85–95.
• Using DNA-barcoded Malaise trap samples to measure impact of a geothermal energy project on the biodiversity of a Costa Rican old-growth rain forest.  Janzen et al. (2020).  Genome, 63(9), 407–436.
• A Review of Terrestrial and Canopy Malaise Traps.  Michael et al. (2021).  Ann. Entomol. Soc. Am., 114(1), 27–47.
• Peering into the Darkness: DNA Barcoding Reveals Surprisingly High Diversity of Unknown Species of Diptera (Insecta) in Germany.  Chimeno et al. (2022).  Insects, 13(1), 82.
• Optimizing insect metabarcoding using replicated mock communities.  Iwaszkiewicz-Eggebrecht et al. (2023).  Methods in Ecology and Evolution, 14(4), 1130–1146.
• Global arthropod beta-diversity is spatially and temporally structured by latitude.  Seymour et al. (2024).  Communications Biology, 7(1), 552.