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UNIT 3 URBAN ECOLOGY Urban Ecology
Structure
3.0 Introduction
3.1 Objectives
3.2 Concept of Urban Ecology
3.2.2 Sociological Understanding of Urban Ecology
3.3 Urban Ecosystems
3.4 Resource Ecology and Life - Supporting Resources
3.5 Economic Resources of the City
3.6 Integration of Human and Natural Environment
3.7 Challenges for Urban Ecology
3.8 Let Us Sum Up
3.9 Key Words
3.10 References and Suggested Readings
3.11 Answers to Check Your Progress
3.0 INTRODUCTION
st
Urbanization has become aunstopable global phenomena in 21 century
leading to a number of changes in natural and social systems. As a result,
urban ecosystems are expanding around the world as people migrate to cities
and the human population continues to move from rural to urban setting.
Now what happens to other species as these urban ecosystems expand, and
how species live and interact in established urban ecosystems, is the central
focus of urban ecology. Over the past two decades, urban ecology has rapidly
expanded from simple studies evaluating what types of species are present in
urban ecosystems to complex investigations of the characteristics that allow
species to thrive in urban environments.
According to the United Nations, the anticipated population growth between
2000 and 2030, approximately 2 billion people, will be concentrated in urban
areas (UN 2004). By the year 2030 more than 60 per cent (4.9 billion) of the
estimated world population (8.1 billion) will live in urban settlements,
compared to 29 per cent in 1950. In 2025, more than a dozen urban
agglomerations will have over 20 million inhabitants, and some will have
over 30 million. 23 of the 25 biggest urban agglomerations on the planet will
be in Africa, Asia, and Latin America, rather than in Europe or North
America (Kraas 2003). These megacities are considered ‘hotspots’ of global
change (Kraas 2007). Urbanised areas cover between approximately one and
six per cent of Earth’s surface, yet they have extraordinarily large ecological
‘footprints’ and complex, powerful, and often indirect effects on ecosystems
(Rees & Wackernagel, 1994 in Endlicher et al. 2007).
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Introduction to Urban 3.1 OBJECTIVES
Environment
After reading this unit, you will be able to
Define urban ecology
•
• Describe urban ecosystems and their importance
• Elucidate the challenges of managing life support resources in urban
environment
3.2 CONCEPT OF URBAN ECOLOGY
The term ecology is basically from natural sciences which addresses the
issues relating to biological patterns and environmental processes in any
natural setting, whether be forests, agricultural system, rural human
settlement or be urban. There are two ways in which scientific research and
studies have been conducted on the issues of urban ecology. The first one
focuses more on the biological and ecological processes and is led by the
natural sciences group, where more emphasis is laid on the relationships
between plant kingdom and animal kingdom and their relationships to
environmental factors. The second way of defining urban ecology is more
human centric or anthropocentric perspective, which is based on
multidisciplinary approach keeping human being first in improving quality of
life and living conditions for humans in urban areas. Broadly, focusing on
urban development issues and habitats and challenges arising in urban
ecosystems.
As both `ecology' and `urban' have several meanings, `urban ecology' is a
diverse and complex concept with dierent dimensions. For instance, the
North American and European use of `urban ecology' dier. In Europe, urban
ecological research has traditionally focused on the biota, especially fora, of
urban areas, while North American research has been oriented towards social
sciences (Wittig and Sukopp 1993). On the other hand, the North American
urban ecological research has also included ecosystem fuxes and processes
(Pickett et al. 1997). These di erent approaches to urban ecological research
indicate that urban ecology is a broad discipline, and it can be de®ned as
ecological research in the urban setting (Rebele, 1994). In addition to a
scienti®c component, urban ecological studies usually aim at explicit
applications of research in the planning and management of urban green areas
(Wittig and Sukopp 1993). Thus, urban ecology is by nature an applied
science.
In other words, urban ecology is more seen and understood as application of
methods and concepts of the biological science of ecology to urban areas,
which also requires and integrates the concerns, concepts, and approaches of
social sciences to produce a hybrid discipline. Urban ecological systems
include individual organisms, populations, communities, and landscapes, as
40 well as buildings and infrastructure. Urban ecology further recognizes
specific urban ecosystems as a part of the global biogeochemical, economic, Urban Ecology
and human demographic..... (Pickett and Cadenasso, 2012). From an even
broader view, urban ecology is the study of ecosystems that includes humans
living in cities and urbanising landscapes. It investigates ecosystem services
which are closely linked to patterns of urban development (Alberti 2005).
Thus, Urban ecology is an interdisciplinary field that supports societies’
attempts to become more sustainable. It has deep roots in many disciplines
including geography, sociology, urban planning, landscape architecture,
engineering, economics, anthropology, climatology, public health, and
ecology. Because of its interdisciplinary nature and unique focus on humans
and natural systems within urbanised areas, ‘urban ecology’ has been used
variously to describe the study of humans in cities, nature in cities, and the
coupled relationships of humans and nature (Endlicher.,et al. 2007).
3.2.2. Sociological Understanding of Urban Ecology
Human Ecology has evolved an important area of study, where human being
and society is the focal point of concern, and central theme where all
enquirys are made keeping society as the actor and factor in interaction with
other components of ecology. It is also regarded as a social science paradigm
that seeks to understand the relationship between human organization and its
environment, both in terms of physical setting and sustenance. The study of
urban ecology is an interdisciplinary approach which is based on components
from some of the established disciplines of sociology, anthropology, political
science, demography, geography and economics. And at various times,
human urban ecology has been more or less connected to biological ecology.
Among its major topics, urban ecology is concerned with the patterns of
urban community sorting and change by socioeconomic status, life cycle, and
ethnicity, and with patterns of relations across systems of cities.
3.3 URBAN ECOSYSTEMS
Urban ecosystems can be understood as an ecosystems located in an urban
settings, it is in noway different from any other ecosystems except for its
location. Urban ecosystems are composed of biological components like
plants, animals, and other forms of life and physical components like soil,
water, air, climate and topography. In all ecosystems these components
interact with one another within a specified area. In the case of urban
ecosystems, however, the biological complex also includes human
populations, their demographic characteristics, their institutional structures,
and the social and economic tools they employ. But, unlike natural
ecosystems, urban ecosystems are a hybrid of natural and man-made
elements whose interactions are affected not only by the natural environment,
but also culture, personal behaviour, politics, economics and social
organisation. Urban ecosystems can no longer be considered as a separate
entity to the environment as they have direct and indirect impacts on the
immediate and wider environments. Many of the environmental problems 41
Introduction to Urban faced today (eg global warming, water and air pollution and inadequate
Environment access to safe drinking water) can be traced back to cities and lifestyle
choices.
According to Encyclopedia Britanica (2020), urban ecosystems also include
physical complex like buildings, transportation networks, modified surfaces
(e.g., parking lots, roofs, and landscaping), and the environmental alterations
resulting from human decision making. The physical components of urban
ecosystems also include energy use and the import, transformation, and
export of materials. Such energy and material transformations involve not
only beneficial products (such as transportation and housing) but also
pollution, wastes, and excess heat. Urban ecosystems are often warmer than
other ecosystems that surround them, have less infiltration of rainwater into
the local soil, and show higher rates and amounts of surface runoff after rain
and storms.
Urban areas can not exist in isolation. They require inputs from, and waste
assimilation functions of, other ecosystems. Ecological footprint analysis has
shown that many cities require a productive land and sea area several times
the city's size in order to support the population. The urban ecosystem
contains both individual and layered (nested) systems from three spheres: (a)
the natural environment, (b) the built environment and (c) the socio-
economic environment. In order to develop policies and programs that
advance sustainable development and the equitable allocation of resources,
each system within the urban ecosystem needs to be recognized as a living
entity that constantly changes with time, location interventions. This
differentiates urban ecosystem from the typical segregated and static
management approach of ecosystems in its natural condition. Each
components of urban ecosystems require a dynamic balancing and
integration. In addition, the interdependencies and interactions between each
system and between the urban ecosystem as a whole and other ecosystems
need to be understood. Unhealthy urban ecosystems can lead to local and
wider environmental degradation, social problems, economic decline, human
health problems and further disconnection from nature.
(https://www.gdrc.org/sustdevHYPERLINK
"https://www.gdrc.org/sustdev/concepts/23-u-eco.html"/concepts/23-u-
eco.html).
It is well known that there are many differences between urban ecosystems
and other ecosystems less dominated by humans. Urban ecosystems are
generally highly disturbed systems, subject to rapid changes in soil and plant
cover, as well as temperature and water availability. Buildings, roads, parking
lots, shopping and residential constructions have covered the open land
space with concrete to form a largely impenetrable covering of the soil that
affects the flow of water and soil permeability for water getting into the land.
The plant life in urban ecosystems is also very different from plants in any
natural ecosystem, characterized by many alien species introduction and non-
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