B33E-0779
Geospatial Technologies and i-Tree Echo Inventory for Predicting Climate Change on Urban Environment

Wednesday, 16 December 2015
Poster Hall (Moscone South)
Shobha Sriharan1, Laren Robinson2, Nasser Ghariban2, Marcus Comar2, Batreda Pope2, Greg Frey3 and Nasser Ghariban, (1)Virginia State University, Agriculture, Washington, DC, United States, (2)Virginia State University, Agriculture, Petersburg, VA, United States, (3)USDA Forest Service, Southern Research Station, Research Triangle Park, NC, United States
Abstract:

Urban forests can be useful both in mitigating climate change and in helping cities adapt to higher temperatures and other impacts of climate change. Understanding and managing the impacts of climate change on the urban forest trees and natural communities will help us maintain their environmental, cultural, and economic benefits. Tree Inventory can provide important information on tree species, height, crown width, overall condition, health and maintenance needs. This presentation will demonstrate that a trees database system is necessary for developing a sustainable urban tree program. Virginia State University (VSU) campus benefits from large number and diversity of trees that are helping us by cleaning the air, retaining water, and providing shade on the buildings to reduce energy cost. The objectives of this study were to develop campus inventory of the trees, identify the tree species, map the locations of the trees with user-friendly tools such as i-Tree Eco and geospatial technologies by assessing the cost/benefit of employing student labor for training and ground validation of the results, and help campus landscape managers implement adaptive responses to climate change impacts. Data was collected on the location, species, and size of trees by using i-Tree urban forestry analysis software. This data was transferred to i-Tree inventory system for demonstrating types of trees, diameter of the trees, height of the trees, and vintage of the trees. The study site was mapped by collecting waypoints with GPS (Global Positioning System) at the trees and uploading these waypoints in ArcMap. The results of this study showed that: (i) students make good field crews, (ii) if more trees were placed in the proper area, the heating and cooling costs will reduce, and (iii) trees database system is necessary for planning, designing, planting, and maintenance, and removal of campus trees Research sponsored by the NIFA Grant, “Urban Forestry Management” (2012-38821-20153).

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