One of the strategies used for biological control of the South American fruit fly Anastrepha fraterculus is sterilization of males by X-ray or gamma-ray irradiation. The aim of the procedure is to bring about a decrease in the wild population of these insects.
A. fraterculus is a major crop pest in the South Region of Brazil, mainly affecting apple and peach orchards.
Sterilization is considered an affordable alternative to the use of insecticides and toxic bait. Before irradiation, the pupae - the immature form between larvae and adults - are submitted to a quality control process to identify and discard dead and low-quality insects.
The problem is that this inspection is performed manually and is based on morpho-physiological analysis, but it is difficult to distinguish empty or dead pupae from healthy pupae with the naked eye. Color differences, for example, are subtle and may go unnoticed.
"The problem can impair the efficiency of biological control because low-quality pupae don't develop into sterile flies," said Clíssia Barboza da Silva, an agronomist affiliated with the University of São Paulo's Center for Nuclear Energy in Agriculture (CENA-USP) in Piracicaba. "The margin of error in manual inspection is about 10%", she added.
Barboza da Silva has been working on a way to optimize the process based on a secure and precise method of pupa analysis in the context of mass production. She and her team use VideometerLab, a multispectral imaging instrument developed by a Danish company, to analyze pupae. Multispectral images capture light from an object over a range of wavelengths across the electromagnetic spectrum. The technique accurately identifies alterations in sample quality.
Purchased for approximately BRL 400,000 (now approximately USD 92,000) with funding from FAPESP's Multiuser Equipment Program, the VideometerLab is about the size of a single-serve coffee maker. It sits on the laboratory bench and is easy to operate. In this case, the researchers place the pupae in a Petri dish and analyze them in five seconds. Manual analysis takes hours.
"Thanks to its multispectral camera, the device provides several kinds of data at the same time - physiological, sanitary and genetic, for example, in addition to data on chemical composition," Barboza da Silva said. The device has 19 LED strobe lights, each of which emits a different wavelength from infrared to ultraviolet. The main analytical technique is reflectance imaging. Reflectance is measured by shining light on a sample and calculating the ratio of reflected to incident light.