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T L Daniel

Explore the profile of T L Daniel including associated specialties, affiliations and a list of published articles. Areas
Snapshot
Articles 29
Citations 509
Followers 0
Related Specialties
Biology
Biomedical Engineering
Biophysics
Top 10 Co-Authors
S A Combes
J H Woodring
P G Reinhall
A L Eberle
J G Kingsolver
J L Fox
N T George
J G Tidball
S Sponberg
P B Chase
Published In
J Exp Biol
Bioinspir Biomim
J Theor Biol
J R Soc Interface
J Ky Med Assoc
Affiliations
Soon will be listed here.
Recent Articles
1.
Intraspecific Variation in the Placement of Campaniform Sensilla on the Wings of the Hawkmoth
Stanchak K, Deora T, Weber A, Hickner M, Moalin A, Abdalla L, et al.
Integr Org Biol . 2024 May; 6(1):obae007. PMID: 38715720
Flight control requires active sensory feedback, and insects have many sensors that help them estimate their current locomotor state, including campaniform sensilla (CS), which are mechanoreceptors that sense strain resulting...
2.
Coriolis and centrifugal forces drive haltere deformations and influence spike timing
Mohren T, Daniel T, Eberle A, Reinhall P, Fox J
J R Soc Interface . 2019 Apr; 16(153):20190035. PMID: 31014202
The halteres of flies are mechanosensory organs that serve a crucial role in the control of agile flight, providing sensory input for rapid course corrections to perturbations. Derived from hind...
3.
Asymmetries in wing inertial and aerodynamic torques contribute to steering in flying insects
Jankauski M, Daniel T, Shen I
Bioinspir Biomim . 2017 May; 12(4):046001. PMID: 28474606
Maneuvering in both natural and artificial miniature flying systems is assumed to be dominated by aerodynamic phenomena. To explore this, we develop a flapping wing model integrating aero and inertial...
4.
Shape matters: corolla curvature improves nectar discovery in the hawkmoth
Campos E, Bradshaw Jr H, Daniel T
Funct Ecol . 2015 May; 29(4):462-468. PMID: 25987763
1. We measured the effects of variation in corolla curvature and nectary aperture radius on pollinator foraging ability using the hawkmoth and 3D-printed artificial flowers whose shapes were mathematically specified....
5.
A new twist on gyroscopic sensing: body rotations lead to torsion in flapping, flexing insect wings
Eberle A, Dickerson B, Reinhall P, Daniel T
J R Soc Interface . 2015 Jan; 12(104):20141088. PMID: 25631565
Insects perform fast rotational manoeuvres during flight. While two insect orders use flapping halteres (specialized organs evolved from wings) to detect body dynamics, it is unknown how other insects detect...
6.
Fluid-structure interaction in compliant insect wings
Eberle A, Reinhall P, Daniel T
Bioinspir Biomim . 2014 May; 9(2):025005. PMID: 24855064
Insect wings deform significantly during flight. As a result, wings act as aeroelastic structures wherein both the driving motion of the structure and the aerodynamic loading of the surrounding fluid...
7.
The cross-bridge spring: can cool muscles store elastic energy?
George N, Irving T, Williams C, Daniel T
Science . 2013 Apr; 340(6137):1217-20. PMID: 23618763
Muscles not only generate force. They may act as springs, providing energy storage to drive locomotion. Although extensible myofilaments are implicated as sites of energy storage, we show that intramuscular...
8.
Abdicating power for control: a precision timing strategy to modulate function of flight power muscles
Sponberg S, Daniel T
Proc Biol Sci . 2012 Jul; 279(1744):3958-66. PMID: 22833272
Muscles driving rhythmic locomotion typically show strong dependence of power on the timing or phase of activation. This is particularly true in insects' main flight muscles, canonical examples of muscles...
9.
Temperature gradients drive mechanical energy gradients in the flight muscle of Manduca sexta
George N, Sponberg S, Daniel T
J Exp Biol . 2012 Jan; 215(Pt 3):471-9. PMID: 22246256
A temperature gradient throughout the dominant flight muscle (dorsolongitudinal muscle, DLM(1)) of the hawkmoth Manduca sexta, together with temperature-dependent muscle contractile rates, demonstrates that significant spatial variation in power production...
10.
Vortexlet models of flapping flexible wings show tuning for force production and control
Mountcastle A, Daniel T
Bioinspir Biomim . 2010 Nov; 5(4):045005. PMID: 21098955
Insect wings are compliant structures that experience deformations during flight. Such deformations have recently been shown to substantially affect induced flows, with appreciable consequences to flight forces. However, there are...