Alexandria Digital Research Library

An analysis of tree mortality using high resolution remotely-sensed data for mixed-conifer forests in San Diego county

Author:
Freeman, Mary Pyott
Degree Grantor:
University of California, Santa Barbara. Geography, Joint Program SDSU
Degree Supervisor:
Douglas A. Stow
Place of Publication:
[Santa Barbara, Calif.]
Publisher:
University of California, Santa Barbara
Creation Date:
2012
Issued Date:
2012
Topics:
Biology, Ecology, Geography, and Remote Sensing
Keywords:
SDM (species distribution modeling).
Forest stand structure analysis
OBIA (object-based image analysis).
Remote sensing of vegetation
Tree mortality
Spatial analysis
Genres:
Online resources and Dissertations, Academic
Dissertation:
Ph.D.--University of California, Santa Barbara, 2012
Description:

ABSTRACT An Analysis of Tree Mortality Using High Resolution Remotely--Sensed Data for Mixed--Conifer Forests in San Diego County by Mary Pyott Freeman The montane mixed--conifer forests of San Diego County are currently experiencing extensive tree mortality, which is defined as dieback where whole stands are affected. This mortality is likely the result of the complex interaction of many variables, such as altered fire regimes, climatic conditions such as drought, as well as forest pathogens and past management strategies. Conifer tree mortality and its spatial pattern and change over time were examined in three components. In component 1, two remote sensing approaches were compared for their effectiveness in delineating dead trees, a spatial contextual approach and an OBIA (object based image analysis) approach, utilizing various dates and spatial resolutions of airborne image data.

For each approach transforms and masking techniques were explored, which were found to improve classifications, and an object-based assessment approach was tested. In component 2, dead tree maps produced by the most effective techniques derived from component 1 were utilized for point pattern and vector analyses to further understand spatio-temporal changes in tree mortality for the years 1997, 2000, 2002, and 2005 for three study areas: Palomar, Volcan and Laguna mountains. Plot--based fieldwork was conducted to further assess mortality patterns. Results indicate that conifer mortality was significantly clustered, increased substantially between 2002 and 2005, and was non--random with respect to tree species and diameter class sizes.

In component 3, multiple environmental variables were used in Generalized Linear Model (GLM--logistic regression) and decision tree classifier model development, revealing the importance of climate and topographic factors such as precipitation and elevation, in being able to predict areas of high risk for tree mortality. The results from this study highlight the importance of multi--scale spatial as well as temporal analyses, in order to understand mixed--conifer forest structure, dynamics, and processes of decline, which can lead to more sustainable management of forests with continued natural and anthropogenic disturbance.

Physical Description:
1 online resource (198 pages)
Format:
Text
Collection(s):
UCSB electronic theses and dissertations
ARK:
ark:/48907/f37d2s3q
ISBN:
9781267767363
Catalog System Number:
990039147320203776
Rights:
Inc.icon only.dark In Copyright
Copyright Holder:
Mary Freeman
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