Microfabricated surfaces for the physical capture of insects

What is claimed is: 1. A microfabricated insect capturing surface comprising: a substrate defining a plane; a plurality of insect capture surface microstructures each formed from a flexible elongated member, the plurality of surface microstructures being disposed on the substrate with a variable orientation to the plane of the substrate and at a density sufficient such that multiple insect capture surface microstructures are capable of simultaneously interacting with an insect disposed thereon; wherein at least some of the surface microstructures have a recurved body capable of entangling the insect, and wherein at least some of the surface microstructures include a piercing element being sufficiently rigid and sharp to pierce the insect body; and wherein the surface microstructures are formed from a material having a breaking stress sufficiently large to avoid breakage during interaction with the insect. 2. The microfabricated surface of claim 1 , wherein each of the plurality of insect capture surface microstructures has a recurved body and wherein at least one piercing element is incorporated onto each of said insect capture surface microstructures. 3. The microfabricated surface of claim 2 , wherein the piercing element is disposed at the terminating end of the elongated member. 4. The microfabricated surface of claim 2 , wherein the surface microstructures include at least two piercing elements, and wherein the piercing elements are disposed along the body of elongated member. 5. The microfabricated surface of claim 1 , wherein the recurved body is formed in a shape selected from the group consisting of a hook, curve, loop or hoop. 6. The microfabricated surface of claim 1 , wherein the piercing element is selected from the group consisting of a sharp point, hook or barb. 7. The microfabricated surface of claim 1 , wherein the plurality of surface microstructures are dimensioned such that engage the underside of the insect. 8. The microfabricated surface of claim 1 , wherein the piercing element has a diameter of about 100 to 1000 nm. 9. The microfabricated surface of claim 1 , wherein the elongated member has a Young's Modulus of from 1 to 23 GPa. 10. The microfabricated surface of claim 1 , wherein the surface microstructures are modeled on a plant trichome. 11. The microfabricated surface of claim 10 , wherein the plant trichome is modeled on one plant selected from the group Phaseolus coccineus, Phaseolus vulgaris, Phaseolus limensis, Passiflora morifolia, Cynnoglossum offtcinale and Caiophora coronaria. 12. The microfabricated surface of claim 1 , wherein the surface microstructures are disposed on the substrate in a density of between 20 to 300 surface microstructures per square millimeter. 13. The microfabricated surface of claim 1 , wherein the surface microstructures are formed from a material selected from the group consisting of polymeric materials, natural fibers, metals, oxides and nano- or micro-engineered structures. 14. The microfabricated surface of claim 1 , wherein the elongated member is formed of a hollow body. 15. A method of manufacturing a microfabricated insect capturing surface comprising: providing a substrate defining a plane; disposing a plurality of insect capture surface microstructures thereon, each formed from a flexible elongated member, the plurality of surface microstructures being disposed on the substrate with a variable orientation to the plane of the substrate and at a density sufficient such that multiple insect capture surface microstructures are capable of simultaneously interacting with an insect disposed thereon; wherein at least some of the surface microstructures have a recurved body capable of entangling the insect, and wherein at least some of the surface microstructures include a piercing element being sufficiently rigid and sharp to pierce the insect body; and wherein the surface microstructures are formed from a material having a breaking stress sufficiently large to avoid breakage during interaction with the insect. 16. The method of claim 15 , wherein each of the plurality of insect capture surface microstructures has a recurved body and wherein at least one piercing element is incorporated onto each of said insect capture surface microstructures. 17. The method of claim 16 , wherein the piercing element is disposed at the terminating end of the elongated member. 18. The method of claim 16 , wherein the surface microstructures include at least two piercing elements, and wherein the piercing elements are disposed along the body of elongated member. 19. The method of claim 15 , wherein the recurved body is formed in a shape selected from the group consisting of a hook, curve, loop or hoop. 20. The method of claim 15 , wherein the piercing element is selected from the group consisting of a sharp point, hook or barb.