Research


Current examples of research being conducted by School of Natural Resources faculty at Baskett Wildlife Research and Education Center are the MOFLUX project and Deer Cam.

MOFLUX Project

ameriflux tower_baskett_0122

SONY DSCAt MOFLUX, the MU Department Of Forestry, along with the Environmental Sciences Division of Oak Ridge National Laboratory and Atmospheric Turbulence and Diffusion Division of NOAA, are collaborating on a research project that measures the carbon and water balance of Missouri’s oak-hickory forests on a large scale.

This Department of Energy-funded study, an addition to an existing network of “Ameriflux” sites, employs a 106-foot tower that is outfitted with sophisticated analytical equipment measuring CO2, water vapor and meteorological information.

This data can be used to estimate the CO2 and water vapor exchange of up to 250 acres of forest, giving an ecosystem-level answer to when forests are sources and sinks of CO2.

The project will undertake comparative studies with other AmeriFlux sites to examine how CO2 uptake (by photosynthesis) and release (by respiration) change along important climate and vegetation gradients. Also supported by the project are on-going, long-term successional studies at BREA to document historical forest development and forest dynamics at the site.

forest floor sensors_baskett_0010

Deer Cam Project

deer-camIn the past few decades, engineers and wildlife researchers have been developing advanced communication technologies for wildlife monitoring.

The state-of-the-art technologies for wildlife research are radio tracking and sensor networks. Radio tracking uses a radio transmitter or receiver (attached to a deer) to collect its location information.

There are three distinct types of radio-tracking technologies that are in use today: very high frequency (VHF) radio tracking, satellite tracking and Global Positioning System (GPS) tracking.

Recent technological advances in hardware miniaturization of sensors, low-power microprocessor design and wireless ad hoc networking have enabled the deployment of large-scale wireless sensor networks.

However, these wildlife monitoring technologies do not offer visual information. Wildlife researchers have found that for accurate behavior analysis and interaction modeling, it is imperative to obtain some visual information about the animal’s activity as well as the environmental context of the behavior. Otherwise, the wildlife researchers are kept “blind” from the animals, and they fail to understand some important behavioral attributes of the wildlife species.

This project brings video sensing capability to wireless sensor networks and collects important visual information for wildlife behavior analysis and interaction modeling.

It also addresses important issues on energy minimization and performance optimization in video sensing over mobile wireless sensor networks and explores the advantages of video sensor information in wildlife research.

Conducting Research at Baskett

To conduct research at BREA, a Thomas S. Baskett Wildlife Research and Education Center Research Study Plan must be completed and approved before research begins.