Supplementary data for: Flight Behavior and Performance of Rhodnius pallescens (Hemiptera: Reduviidae) on a Tethered Flight Mill

Understanding the flight characteristics of insect pests is essential for designing effective strategies and programs for their management. In this study, we designed, constructed, and validated the performance of modern flight-testing systems (flight mill and flight tunnel) for studying the flight behavior of red palm weevil (RPW) Rhynchophorus ferrugineus (Olivier) under a controlled atmosphere. The flight-testing mill consisted of a flight mill, a testing chamber with an automatically controlled microclimate, and a data logging and processing unit. The data logging and processing unit consisted of a USB digital oscilloscope connected with a laptop. We used MATLAB 2020A to implement a graphical user interface (GUI) for real-time sampling and data processing. The flight-testing tunnel was fitted with a horizontal video camera to photograph the insects during flight. The program of Image-Pro plus V 10.0.8 was used for image processing and numerical data analysis to determine weevil tracking. The mean flight speed of RPW was 82.12 ± 8.5 m/min, and the RPW stopped flying at the temperature of 20 °C. The RPW flight speed in the flight tunnel was slightly higher than that on the flight mill. The angular deceleration was 0.797 rad/s2, and the centripetal force was 0.0203 N when a RPW tethered to the end of the rotating arm. The calculated moment of inertia of the RPW mass and the flight mill's rotating components was 9.521 × 10−3 N m2. The minimum thrust force needed to rotate the flight mill was 1.98 × 10−3 N. Therefore, the minimum power required to rotate the flight mill with the mean revolution per min of 58.02 rpm was approximately 2.589 × 10−3 W. The designed flight-testing systems and their applied software proved productive and useful tools in unveiling essential flight characteristics of test insects in the laboratory.

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Estimation of flight capability on some Brachycerous flies by tethered flight mill performance(Proceedings of the 51st Annual Meeting of Southern Region)

Medical Entomology and Zoology ◽

10.7601/mez.53.127_4 ◽

2002 ◽

Vol 53 (2) ◽

pp. 127

Author(s):

Kenkichi Kanmiya

Keyword(s):

Annual Meeting ◽

Southern Region ◽

Flight Mill ◽

Tethered Flight

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Flight Mill Experiments and Computer Simulations Indicate Islands Recruit More Capable Flyers of Moths

Frontiers in Ecology and Evolution ◽

10.3389/fevo.2021.771719 ◽

2021 ◽

Vol 9 ◽

Author(s):

Yu-xuan Zheng ◽

Ying Wang ◽

Bo-ya Dai ◽

Zheng Li ◽

Qi-run Huo ◽

...

Keyword(s):

Morphological Traits ◽

Insect Flight ◽

Mainland China ◽

External Factors ◽

Simulation Experiments ◽

Flight Mill ◽

Tethered Flight ◽

The Family ◽

Moth Species ◽

Number Of Individuals

Understanding the traits related to species colonization and invasion, is a key question for both pest management and evolution. One of the key components is flight, which has been measured for a number of insect species through radar and tethered flight mill systems, but a general understanding of insect flight at a community level is lacking. In this study, we used flight mill experiments to quantify flight abilities of moth species, and simulation experiments to study which moths in mainland China have the potential for cross-island dispersal. We found that moths from superfamily Geometroidea (family Geometridae) have the weakest flight ability among the seven Lepidoptera superfamilies, which is characterized by the shortest longest single flight (LSF), the shortest time corresponding to the longest single flight (TLSF) (timecorrespondingtothelongestsingleflight), the lowest total distance flown (TDF), and the lowest average speed during the flight (VTDF). Surprisingly, the family Pyralidae (superfamily Pyraloidea) has the highest flight endurance of all 186 species of 12 families in this study, which is unexpected, given its small size and morphological traits yet it shows the longest LSF and TLSF. The comparison between species common to mainland and islands shows that flight distance (LSF) may be more important for species spread than flight speed. The results of mainland-island simulations show that when P(LSF>CD) (the proportion of individuals whose LSF is greater than the closest distance (CD) between mainland and island to the total number of individuals in the population) is less than 0.004, it is difficult for moth species to disperse to across islands without relying on external factors such as airflow. Over extended periods, with the immigration of species with strong flight abilities, islands are more likely to recruit species with stronger flight abilities.

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AQUA-DUCT 1.0: structural and functional analysis of macromolecules from an intramolecular voids perspective

Bioinformatics ◽

10.1093/bioinformatics/btz946 ◽

2019 ◽

Vol 36 (8) ◽

pp. 2599-2601 ◽

Cited By ~ 6

Author(s):

Tomasz Magdziarz ◽

Karolina Mitusińska ◽

Maria Bzówka ◽

Agata Raczyńska ◽

Agnieszka Stańczak ◽

...

Keyword(s):

Functional Analysis ◽

Drug Design ◽

Protein Engineering ◽

Molecular Probes ◽

Supplementary Information ◽

Supplementary Data ◽

Comprehensive Method ◽

And Performance ◽

Insight Into ◽

Small Ligands

Abstract Motivation Tunnels, pores, channels, pockets and cavities contribute to proteins architecture and performance. However, analysis and characteristics of transportation pathways and internal binding cavities are performed separately. We aimed to provide universal tool for analysis of proteins integral interior with access to detailed information on the ligands transportation phenomena and binding preferences. Results AQUA-DUCT version 1.0 is a comprehensive method for macromolecules analysis from the intramolecular voids perspective using small ligands as molecular probes. This version gives insight into several properties of macromolecules and facilitates protein engineering and drug design by the combination of the tracking and local mapping approach to small ligands. Availability and implementation http://www.aquaduct.pl. Supplementary information Supplementary data are available at Bioinformatics online.

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Haltere mechanosensory influence on tethered flight behavior in Drosophila

Journal of Experimental Biology ◽

10.1242/jeb.121863 ◽

2015 ◽

Vol 218 (16) ◽

pp. 2528-2537 ◽

Cited By ~ 15

Author(s):

S. Mureli ◽

J. L. Fox

Keyword(s):

Flight Behavior ◽

Tethered Flight

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Tethered flight of Chilo partellus (Swinhoe) (Lepidoptera: Pyralidae)

Bulletin of Entomological Research ◽

10.1017/s0007485300018617 ◽

1989 ◽

Vol 79 (1) ◽

pp. 109-114 ◽

Cited By ~ 8

Author(s):

Peeter Päts ◽

Staffan Wiktelius

Keyword(s):

Chilo Partellus ◽

Flight Duration ◽

Flight Velocity ◽

Flight Mill ◽

Laboratory Conditions ◽

Tethered Flight ◽

Lepidoptera Pyralidae ◽

Males And Females

AbstractStatic tethered flight was used under laboratory conditions to investigate the flight duration of Chilo partellus (Swinhoe). A flight mill was used to measure flight velocity. Mated females flew for a longer time than unmated ones. Females also flew for a longer time than males. Mated females were able to fly and lay eggs alternately for at least three nights in a row. Flight did not affect the number of eggs deposited by females. The results from the flight mill show that the mill is an accurate device to measure flight velocity. The airspeed of C. partellus proved to be 0.9 m/s, and there appeared to be no difference between the flight velocity of mated or unmated males and females.

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Design of a Three Surfaces R/C Aircraft Model

Acta Polytechnica ◽

10.14311/314 ◽

2002 ◽

Vol 42 (1) ◽

Author(s):

D. P. Coiro ◽

F. Nicolosi

Keyword(s):

Cost Model ◽

Low Cost ◽

Aerodynamic Characteristics ◽

Flight Behavior ◽

Material Structure ◽

Aircraft Model ◽

Lifting Surfaces ◽

And Performance ◽

Under Construction ◽

High Angles Of Attack

Design of a three lifting surfaces radio-controlled model has been carried out at Dipartimento di Progettazione Aeronautica (DPA) by the authors in the last year. The model is intended to be a UAV prototype and is now under construction. The main goal of this small aircraft's design is to check the influence of the canard surface on the aircraft's aerodynamic characteristics and flight behavior, especially at high angles of attack. The aircraft model is also intended to be a flying platform to test sensors, measurement and acquisition systems for research purposes and a valid and low-cost teaching instrument for flight dynamics and flight maneuvering. The aircraft has been designed to fly with and without canard, and all problems relative to aircraft balance and stability have been carefully analyzed and solved. The innovative configuration and the mixed wooden-composite material structure has been obtained with very simple shapes and all the design is focused on realizing a low-cost model. A complete aerodynamic analysis of the configuration up to high angles of attack and a preliminary aircraft stability and performance prediction will be presented.

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The influence of sensory delay on the yaw dynamics of a flapping insect

Journal of The Royal Society Interface ◽

10.1098/rsif.2011.0699 ◽

2011 ◽

Vol 9 (72) ◽

pp. 1685-1696 ◽

Cited By ~ 31

Author(s):

Michael J. Elzinga ◽

William B. Dickson ◽

Michael H. Dickinson

Keyword(s):

Feedback System ◽

System Response ◽

Feedback Gain ◽

Free Flight ◽

Closed Loop Systems ◽

Tethered Flight ◽

Body Dynamics ◽

And Performance ◽

Proportional Controller ◽

Flight Measurements

In closed-loop systems, sensor feedback delays may have disastrous implications for performance and stability. Flies have evolved multiple specializations to reduce this latency, but the fastest feedback during flight involves a delay that is still significant on the timescale of body dynamics. We explored the effect of sensor delay on flight stability and performance for yaw turns using a dynamically scaled robotic model of the fruitfly, Drosophila . The robot was equipped with a real-time feedback system that performed active turns in response to measured torque about the functional yaw axis. We performed system response experiments for a proportional controller in yaw velocity for a range of feedback delays, similar in dimensionless timescale to those experienced by a fly. The results show a fundamental trade-off between sensor delay and permissible feedback gain, and suggest that fast mechanosensory feedback in flies, and most probably in other insects, provide a source of active damping which compliments that contributed by passive effects. Presented in the context of these findings, a control architecture whereby a haltere-mediated inner-loop proportional controller provides damping for slower visually mediated feedback is consistent with tethered-flight measurements, free-flight observations and engineering design principles.

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A Simple Flight Mill for the Study of Tethered Flight in Insects

Journal of Visualized Experiments ◽

10.3791/53377 ◽

2015 ◽

Cited By ~ 4

Author(s):

Alfredo Attisano ◽

James T. Murphy ◽

Andrew Vickers ◽

Patricia J. Moore

Keyword(s):

Flight Mill ◽

Tethered Flight

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