Ecology and the City: A Long-Term Social-Ecological Examination of the Drivers and Diversity of Urban Vegetation

abstract: Often, when thinking of cities we envision designed landscapes, where people regulate everything from water to weeds, ultimately resulting in an ecosystem decoupled from biophysical processes. It is unclear, however, what happens when the people regulating these extensively managed landsca...

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Other Authors: Ripplinger, Julie (Author)
Format: Doctoral Thesis
Language:English
Published: 2015
Subjects:
Online Access:http://hdl.handle.net/2286/R.I.36423
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spelling ndltd-asu.edu-item-364232018-06-22T03:06:50Z Ecology and the City: A Long-Term Social-Ecological Examination of the Drivers and Diversity of Urban Vegetation abstract: Often, when thinking of cities we envision designed landscapes, where people regulate everything from water to weeds, ultimately resulting in an ecosystem decoupled from biophysical processes. It is unclear, however, what happens when the people regulating these extensively managed landscapes come under stress, whether from unexpected economic fluctuations or from changing climate norms. The overarching question of my dissertation research was: How does urban vegetation change in response to human behavior? To answer this question, I conducted multiscale research in an arid urban ecosystem as well as in a virtual desert city. I used a combination of long-term data and agent-based modeling to examine changes in vegetation across a range of measures influenced by biophysical, climate, institutional, and socioeconomic drivers. At the regional scale, total plant species diversity increased from 2000 to 2010, while species composition became increasingly homogeneous in urban and agricultural areas. At the residential scale, I investigated the effects of biophysical and socioeconomic drivers – the Great Recession of 2007-2010 in particular – on changing residential yard vegetation in Phoenix, AZ. Socioeconomic drivers affected plant composition and increasing richness, but the housing boom from 2000 through 2005 had a stronger influence on vegetation change than the subsequent recession. Surprisingly, annual plant species remained coupled to winter precipitation despite my expectation that their dynamics might be driven by socioeconomic fluctuations. In a modeling experiment, I examined the relative strength of psychological, social, and governance influences on large-scale urban land cover in a desert city. Model results suggested that social norms may be strong enough to lead to large-scale conversion to low water use residential landscaping, and governance may be unnecessary to catalyze residential landscape conversion under the pressure of extreme drought conditions. Overall, my dissertation research showed that urban vegetation is dynamic, even under the presumably stabilizing influence of human management activities. Increasing climate pressure, unexpected socioeconomic disturbances, growing urban populations, and shifting policies all contribute to urban vegetation dynamics. Incorporating these findings into planning policies will contribute to the sustainable management of urban ecosystems. Dissertation/Thesis Ripplinger, Julie (Author) Franklin, Janet (Advisor) Collins, Scott L (Advisor) Anderies, John M (Committee member) Childers, Daniel L (Committee member) York, Abigail (Committee member) Arizona State University (Publisher) Ecology Urban planning Botany ecosystem services landscape ecology social-ecological systems urban ecology eng 121 pages Doctoral Dissertation Biology 2015 Doctoral Dissertation http://hdl.handle.net/2286/R.I.36423 http://rightsstatements.org/vocab/InC/1.0/ All Rights Reserved 2015
collection NDLTD
language English
format Doctoral Thesis
sources NDLTD
topic Ecology
Urban planning
Botany
ecosystem services
landscape ecology
social-ecological systems
urban ecology
spellingShingle Ecology
Urban planning
Botany
ecosystem services
landscape ecology
social-ecological systems
urban ecology
Ecology and the City: A Long-Term Social-Ecological Examination of the Drivers and Diversity of Urban Vegetation
description abstract: Often, when thinking of cities we envision designed landscapes, where people regulate everything from water to weeds, ultimately resulting in an ecosystem decoupled from biophysical processes. It is unclear, however, what happens when the people regulating these extensively managed landscapes come under stress, whether from unexpected economic fluctuations or from changing climate norms. The overarching question of my dissertation research was: How does urban vegetation change in response to human behavior? To answer this question, I conducted multiscale research in an arid urban ecosystem as well as in a virtual desert city. I used a combination of long-term data and agent-based modeling to examine changes in vegetation across a range of measures influenced by biophysical, climate, institutional, and socioeconomic drivers. At the regional scale, total plant species diversity increased from 2000 to 2010, while species composition became increasingly homogeneous in urban and agricultural areas. At the residential scale, I investigated the effects of biophysical and socioeconomic drivers – the Great Recession of 2007-2010 in particular – on changing residential yard vegetation in Phoenix, AZ. Socioeconomic drivers affected plant composition and increasing richness, but the housing boom from 2000 through 2005 had a stronger influence on vegetation change than the subsequent recession. Surprisingly, annual plant species remained coupled to winter precipitation despite my expectation that their dynamics might be driven by socioeconomic fluctuations. In a modeling experiment, I examined the relative strength of psychological, social, and governance influences on large-scale urban land cover in a desert city. Model results suggested that social norms may be strong enough to lead to large-scale conversion to low water use residential landscaping, and governance may be unnecessary to catalyze residential landscape conversion under the pressure of extreme drought conditions. Overall, my dissertation research showed that urban vegetation is dynamic, even under the presumably stabilizing influence of human management activities. Increasing climate pressure, unexpected socioeconomic disturbances, growing urban populations, and shifting policies all contribute to urban vegetation dynamics. Incorporating these findings into planning policies will contribute to the sustainable management of urban ecosystems. === Dissertation/Thesis === Doctoral Dissertation Biology 2015
author2 Ripplinger, Julie (Author)
author_facet Ripplinger, Julie (Author)
title Ecology and the City: A Long-Term Social-Ecological Examination of the Drivers and Diversity of Urban Vegetation
title_short Ecology and the City: A Long-Term Social-Ecological Examination of the Drivers and Diversity of Urban Vegetation
title_full Ecology and the City: A Long-Term Social-Ecological Examination of the Drivers and Diversity of Urban Vegetation
title_fullStr Ecology and the City: A Long-Term Social-Ecological Examination of the Drivers and Diversity of Urban Vegetation
title_full_unstemmed Ecology and the City: A Long-Term Social-Ecological Examination of the Drivers and Diversity of Urban Vegetation
title_sort ecology and the city: a long-term social-ecological examination of the drivers and diversity of urban vegetation
publishDate 2015
url http://hdl.handle.net/2286/R.I.36423
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