- Archaeologist, focused on Maya agriculture and environmental education.edit
Research Interests:
This study proposes a sampling method for ground-truthing LiDAR-derived data that will allow researchers to verify or predict the accuracy of results over a large area. Our case study is focused on a 24 km2area centered on the site of... more
This study proposes a sampling method for ground-truthing LiDAR-derived data that will allow researchers to verify or predict the accuracy of results over a large area. Our case study is focused on a 24 km2area centered on the site of Yaxnohcah in the Yucatan Peninsula. This area is characterized by a variety of dense tropical rainforest and wetland vegetation zones with limited road and trail access. Twenty-one 100 x 100 m blocks were selected for study, which included examples of several different vegetation zones. A pedestrian survey of transects through the blocks was conducted, recording two types of errors. Type 1 errors consist of cultural features that are identified in the field, but are not seen in the digital elevation model (DEM) or digital surface model (DSM). Type 2 errors consist of features that appear to be cultural when viewed on the DEM or DSM, but are caused by different vegetative features. Concurrently, we conducted an extensive vegetation survey of each block,...
Research Interests:
The relative dimension of the areas constituting the cerebral cortex differs greatly in the brains of different mammalian species. The mechanisms by which such an evolutionary remodeling has occurred is not well understood. To begin... more
The relative dimension of the areas constituting the cerebral cortex differs greatly in the brains of different mammalian species. The mechanisms by which such an evolutionary remodeling has occurred is not well understood. To begin exploring possible mechanisms, we took advantage of a transgenic mouse model in which the area of the primary somatosensory cortex (S1) shifts, to some extent independent from the area of the cortex as a whole, as a result of differences in the availability of insulin-like growth factor I (IGF-I). Electron microscopy estimations of synapse density in D3 and C3 cortical columns of the S1 layer IV revealed that this parameter was similar among wild type and transgenic mice with higher and lower availability of IGF-I. Because D3 and C3 columns were larger and smaller than normal in mice with higher and lower IGF-I availability, the total number of synapses contained in the average area of D3 and C3 columns increased and decreased, respectively. No differences in the number and overall arrangement of S1 columns were observed among animal groups. These results suggest that: 1) synapse density is a constant factor within the S1 cortical column structure; 2) the mechanisms and factors regulating cell number and synaptogenesis are affected as columns and cortical areas modify their relative dimensions; 3) altered availability of neurotrophic factors might be associated with changes in areal dimensions; and 4) changes in cortical areal dimensions within single lineages might result from the addition of minicolumns to preexisting columns.