Terrestrial laser scanning to model sunlight irradiance on cadavers under conditions of natural decomposition.

Human decomposition is a dynamic process that is influenced by both abiotic and biotic factors. Measuring these influences, in particular abiotic factors, on the decomposition process is often a challenge for scientists. Recently, researchers have turned to the use of advanced remote sensing technologies in forensic investigations. In this study, a new methodology is described that utilizes precise 3D images captured using terrestrial laser scanning (TLS) to calculate total solar irradiance on a cadaver in a partially forested environment. To test this new measurement approach under actual field conditions, three cadavers were placed in an outdoor environment to decompose. Laser scans were taken the day of placement and used to calculate the total solar irradiance at time points of 24 h, 1 week, and 1 month from placement. The results show that as time progresses, different cadavers at the field site and different areas of the same cadaver receive varying amounts of solar irradiance. The modeling based on these laser scans can be used to create predictive images of solar irradiance that may provide researchers with a new tool to help quantitatively assess the effect of solar irradiance on a cadaver ecosystem.

Gelechioidea (Insecta: Lepidoptera) systematics: a reexamination using combined morphology and mitochondrial DNA data.

Phylogenies of Gelechioidea (Insecta: Lepidoptera) historically have been in disagreement and definitions vary at the family and subfamily levels. Addition of new taxa or new characters drastically changes relationships indicating that current phylogenetic schemes require more investigation. This study is the first phylogenetic analysis of Gelechioidea to include molecular data. Here we present a combined analysis using Maximum Parsimony to investigate sister-group relationships within Gelechioidea. The addition of Cytochrome oxidase I and II to revised published morphological matrices gives 453 parsimony informative characters for the 42 taxa for which we have sequence data. The combined analysis resulted in two trees with mostly novel sister-group relationships. These results challenge current concepts of Gelechioidea, suggesting that traditional morphological characters that have united taxa may not be homologous structures and are in need of further investigation. A combination of morphological data with new molecular data will be the most robust method of study for Gelechioidea phylogenetics.