The document discusses patterns in nature at various scales from geological processes that form landscapes to ecological patterns like nutrient cycling and succession. It notes how patterns are constantly changing in response to disturbances from forces like climate change. While natural disturbances are usually temporary, human impacts are often permanent and disruptive to natural patterns. Maintaining biodiversity is important for ecosystem resilience against environmental changes.
Ecological Succession is the process of change in the species structure of an ecological community over a period of time.
But, over a long period of time, the climate conditions of an ecosystem is bound to change.
No ecosystem has existed or will remain unchanged over a Geological Time Scale.
Four environmental researchers and analysts - Erle Ellis, Barry Brook, Linus Blomqvist, Ruth DeFries - offer a critique of an updated analysis of "planetary boundaries" for human activities offered in a new Science paper.
Ecological Succession is the process of change in the species structure of an ecological community over a period of time.
But, over a long period of time, the climate conditions of an ecosystem is bound to change.
No ecosystem has existed or will remain unchanged over a Geological Time Scale.
Four environmental researchers and analysts - Erle Ellis, Barry Brook, Linus Blomqvist, Ruth DeFries - offer a critique of an updated analysis of "planetary boundaries" for human activities offered in a new Science paper.
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Running head ENVIRONMENTAL SCIENCE1ENVIRONMENTAL SCIENCE.docxcharisellington63520
Running head: ENVIRONMENTAL SCIENCE
1
ENVIRONMENTAL SCIENCE
2
Environmental Science
Student’s Name
University Affiliation
Environmental Science
Environmental science part 1
1page Define stewardship and define sustainability.
Stewardship of the ecosystem refers to a framework that is action-oriented and that seeks to develop the sustainability of the socio-ecological environment of a planet that is rapidly changing planet. It considers the means through which the resources availed by the environment are managed with the intent of ensuring they are not wasted or exhausted. Sustainability on the other hand refers to the facilitation of current needs by using the environment without jeopardizing future generations’ ability to meet their needs.
Considering the Amazon forest, there are several considerations that can be made in light of the stewardship and sustainable utilization of the resource. To begin with, it is imperative that Amazon resource are conserved by being included as a conservation reserve and marked for protection and sustainability. Additionally, it could be placed under a covenant of conservation. There should also be an inventory of the natural resources in the Amazon including a comprehensive inventory of the biological resources found in the forest and which should be monitored within regular intervals. Additionally, there should be increased research on the identification of maintenance procedures of proper biological and physical processes from the forest. There should also be policies set that determine the sustainable utilization of timber from the Amazon rainforest according to proper standards that will ensure that future generations use of the same is not endangered (Chapin III & Matson, 2011).
The environmental implications that can arise as a result of deforestation of the Amazon forest are innumerable. To begin with animals dependent on the forest would find it difficult to survive and, therefore, may become extinct. This would make them unavailable for future generations. Additionally, deforestation leads to an imbalance between the carbon dioxide: oxygen ratio in the atmosphere. As a result, air pollution will become aggravated.
PART 2
Ecosystems and How They Work - Sustainable Development close
In this assignment, you will investigate the biotic and abiotic structure and function of an ecosystem. Choose one of the following ecosystems:
Tropical rainforest
An ecosystem refers to a correlated community of both living and non-living organisms and the environment in which they are found. It comprises an abiotic and biotic component. For this discussion the ecosystem chosen is a tropical rainforest. The biome of a rainforest is highly complex as it comprises a myriad of various plant and animal species which are adapted to surviving under rainy conditions. An example is the Amazon rainforest. In the rainforest ecosystem there exist various plant levels, with the highest being the tall trees that fo.
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Biological Diversity Essay
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Essay about The Importance of Biodiversity
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Biodiversity Worsheet Bio 280 Essay
Ecology is the scientific study of organisms `at home' which is called as the `environment'. The term `environment' refers to those parts of the world or the total set of circumstances which surround an organism or a group of organisms.
This presentation offers a bird's eye view about community dynamics in general and ecological succession in particular with special reference to Climax vegetation.
Environment literally means surrounding and everything that affect an organism during its lifetime is collectively known as its environment. In another words “Environment is sum total of water, air and land interrelationships among themselves and also with the human being, other living organisms and property”. It includes all the physical and biological surrounding and their interactions.
Environmental studies provide an approach towards understanding the environment of our planet and the impact of human life upon the environment.
Thus environment is actually global in nature, it is a multidisciplinary subject including physics, geology, geography, history, economics, physiology, biotechnology, remote sensing, geophysics, soil science and hydrology etc. Scope of Environmental Science Environmental science is a multidisciplinary science whose basic aspects have a direct relevance to every section of the society.
Its main aspects are:
• Conservation of nature and natural resources.
• Conservation of biological diversity.
• Control of environmental pollution.
• Stabilization of human population and environment.
• Social issues in relation to development and environment.
• Development of non-polluting renewable energy system and providing new dimension to nation’s security. Importance of Environmental Science Environment belongs to all the living beings and thus is, important for all.
Each and every body of whatever occupation he or she may have, is affected by environmental issues like global warming, depletion of ozone layer, dwindling forest, energy resources, loss of global biodiversity etc.
Environment study deals with the analysis of the processes in water, air, land, soil and organisms which leads to pollute or degrade environment. It helps us for establishing standard,Environment and Ecology for safe, clean and healthy natural ecosystem.
It also deals with important issues like safe and clean drinking water, hygienic living conditions and clean and fresh air, fertility of land, healthy food and development. Sustainable environmental law, business administration, environmental protection, management and environmental engineering are immerging as new career opportunities for environment protection and managements.
Need for Public Awareness With the ever increasing development by modern man, large scale degradation of natural resources have been occurred, the public has to be educated about the fact that if we are degrading our environment we are actually harming ourselves.
To encourage meaningful public participation and environment, it is necessary to create awareness about environment pollution and related adverse effects. The United Nations conference on Environment and Development held in Rio-de-Janeiro, followed by Earth summit on sustainable Development have high-lighted the key issues of global environmental concern and have attracted the general public towards the...
The scope of studying environmental aspects is extremely wide and covers several crucial aspects of almost all disciplines.
The survival of any organism requires a steady supply of food and other materials and removal of waste products from its environment. The degradation of the environment is becoming a serious problem for the existence of human beings and other life. Pollution of soil, water and air causes harm to living organisms as well as loss to valuable natural resources. Several important aspects are studied under the field called as Environmental Studies.
1. Patterns in a Changing Landscape
Ecology and Sustainability
Instructor-Delia Malone
November 21, 2013
By: Jason E Evitt
Figure 1-Patterns in Nature (Davidavičiūtė, 2012)
2. Figure 2-Mud Cracks (Carsten, 2010)
The landscape of the planet is in constant movement, creating and responding to patterns
and processes. High pressure and temperature liquefy molten lava around a solid core in
the center of the Earth. This viscous rock is pushed and squeezed into cracks in the
tectonic plates and eventually breach the mantle of the Earth to form mountains and new
substrate. Tectonic plates that form the base and foundation of the continents are
moving, colliding and creating geologic formations along the way. Faults fracture,
mountains rise and landscapes change. Pressurized, high temperature water from inside
the Earth is forced through fissures and faults, many times bringing life giving
circumstances to otherwise bleak conditions. Rocks and sediment erode from mountains
and flow via the rivers and streams to the sea while forming new beaches and islands
along the way.
Eroding, degrading rocks break down to form soils that accumulate on the more gentle
gradients of the valleys and flat lands while providing habitat for vegetation and the life-
sustaining primary producers. Water flowing from higher elevations takes the path of
least resistance to the sea providing the system of delivery of this invaluable resource
needed by every living organism. This process is enabled by the hydrologic cycle, which
is the flow of water in its different physical stages around the Earth in a closed loop
system.
There are many other cycles on the Earth such as the carbon cycle, nitrogen cycle and the
soil specific nutrient cycling system involving a veritable jungle of microorganisms in the
soil with interactions and patterns not unlike the interactions we can see with megafauna,
only on a very small scale. Vegetation is constantly moving and evolving with the
changes of the climate and ecosystems. Disruptions such as fires, floods, avalanches,
storms and many more constantly clean the slate and restart the patterns of succession
and regeneration.
Succession offers an example of one of the more important patterns and is a foundation
of ecology. As disruption alters conditions on the Earth including via climate change,
vegetation normally stays out front of change by evolving and adapting. Animals do the
same; as environmental conditions change, as they always are changing in patterns, plants
and animals adapt according to their fitness, which is influenced by the interconnected
system of environmental factors including the variables of forage and temperature, which
have a great effect on the fitness of plants and animals. This is known as natural
selection and speciation and typically happens over a long period, and it reflects the
patterns of the relationships in the biosphere.
3. Figure 3- Agricultural Crop Circles (NASA, 2011)
Global warming is being affected by patterns of growth, development and consumption.
When dealing with a closed system as is the Earth, when force is exerted in one direction
there is an equal response in another direction. In this case, it is a rise in the average
temperature of the Earth, which creates a cascade of effects for EVERYTHING.
As we discover more and more about interconnections and symbiosis of living
organisms, we discover more often that there is a drive and system of assistance for one
organism to another. Trees are connected by a system of fungi that acts like a kind of
conduit of communication and nutrient interaction. University of British Columbia
professor Suzanne Simard explains, “There is an interface between the root cortical cells
and the fungal cell that wrapped itself around that cortical cell and that is where this
exchange is going on. So meters away you can have a plant connected to another plant
and they are just shuffling carbon and nitrogen back and forth according to who needs it
(Simard 2012).”
Everything is part of a process. Everything is in constant motion; sometimes it is
undetectable to the frame of human reference in each individual’s limited time here
compared to some processes like geologic time. Nothing occurs randomly in nature and
we must allow freedom of movement, freedom of expression, freedom to evolve at a
manageable pace and scale.
I have come to realize the importance of self-actualization and how important the
“process” is to a true understanding and command of knowledge combined with
experience. Without the process of learning and experiencing, knowledge is abstract,
ethereal and sometimes ungrounded. Knowledge gained without experience can be a
loose cannon. Alternatively, when there is a solid foundation with a sense of place and
connection, wisdom can arise and a holistic understanding can be achieved.
The patterns and processes of biodiversity in nature are subject to the overbearing,
dominant role people play in the ecosystem. John Waterman stated that what he takes
away mostly from his many amazing adventures and communion with wilderness and the
wild is the resilience and determination of nature if given half a chance.
4. When anthropogenic disturbance is forced upon nature, it is often relentless and
permanent under our constant maintenance. This is very different from natural
disturbances that are usually temporary and swift such as fires, floods, earthquakes,
avalanches and wind. Regeneration and rejuvenation can occur under normal patterns of
disturbance and then repair. Global climate change and developmental infrastructure as a
reaction to climate change, and to support population growth, are occurring at an
abnormally rapid pace compared to the capacity for the environment to adjust, adapt,
compensate, evolve or migrate. Patterns in nature have been altered by humans in almost
everyway. Some examples of this are as follows:
This reference illustrates anthropogenic impacts of humans on the planet: Consequences
of Changing Biodiversity (Chapin et al., 2000). The abstract offers an idea of the scope
of the impacts and focuses on the invaluable component of biodiversity:
Human alteration of the global environment has triggered the sixth major extinction
event in the history of life and caused widespread changes in the global distribution of
organisms. These changes in biodiversity alter ecosystem processes and change the
resilience of ecosystems to environmental change. This has profound consequences for
services that humans derive from ecosystems. The large ecological and societal
consequences of changing biodiversity should be minimized to preserve options for
future solutions to global environmental problems (Chapin et al., 2000).
This graph is from the Synthesis Report from: Climate Change 2007: An Assessment of
the Intergovernmental Panel on Climate Change (Barker, 2007). The report outlines
climate change impacts around the world.
5. The following abstract from a report entitled “Structural Patterns and Biodiversity in
Burned and Managed Aleppo Pine Stands,” touches on many topics we have discussed in
class such as fire regime, native flora and fauna, forest management, ecosystem
conservation, monitoring, patterns, diversity, distribution, structure and age diversity.
Increasing anthropic pressure is making forest fires more frequent in the Mediterranean
Basin and therefore affecting the response of native flora and fauna. Two large fires
occurred in summer, 1994, in the Southeastern Iberian Peninsula. Aleppo pine, the main
tree species, regenerated naturally after the fire. In this study we are interested in
strategies for maximizing Aleppo pine tree recovery and conservation of its ecosystem.
We performed thinning and pruning in the pine tree stands 5 and 10 years after the fire
and took measurements on structural patterns and plant diversity using several indices.
In addition, we measured macro-lichen and faunal diversity indirectly. Results show
significant differences between treated-burned plots and untreated-unburned plots. The
plots thinned 10 years after the fire and the unburned plots (mature stands) showed a
regular, non-aggregated distribution and a low diameter differentiation. Also, these
plots showed similar plant diversity values. The silvicultural treatments did not
significantly affect the fauna and lichen index values. The high intensity of thinning and
late pruning applied to young Aleppo pine stands improved the structural pattern and
plant diversity (Moya, D., J. las Heras, F. López-Serrano, S. Condes, 2009).
There are many patterns in nature. One could almost say everything is involved with
patterns. Patterns and processes, structure and function, beavers and wolves; these are
hallmarks of ecology and represent necessary attributes that allow conditions for the
promotion of emergent properties and quantum connections. I didn’t even get to go into
fractals which open the door to an entire universe of patterns. This is a neat video about
the discoverer and namer of the world and word of fractals, Benoit B. Mandelbrot, IBM
Fellow Emeritus and Fractal Pioneer. Fractals are best described in video:
http://youtu.be/Ehwy4Gq27uY#aid=P-2A20SZU_k (Morris, 2013)
I love patterns and appreciate the opportunity to research, discover more and practice
articulating the ideas of patterns and connections. Ecology is the most poetic, articulate
and holistic academic discipline I have encountered. I can’t believe how many of the
patterns and concepts that are in ecology overlap into the rest of life. I feel my
knowledge and understanding of the world around me has grown leaps and bounds in this
class and Conservation Biology combined. The most important pattern I see in that
process is the instructor-Delia Malone. Her eloquent and descriptive way of speaking is
engaging, educational and infectious. I appreciate her contributions to my journey and I
hope and plan to take the blessings she bestowed into the world for the betterment of
things big and small, inclusive of all. Thanks, Delia!
6. Citations:
Barker, T. (2007). Climate Change 2007 : An Assessment of the Intergovernmental Panel
on Climate Change. (R. K. Pachauri & A. Reisinger, Eds.)Change, 446(November),
12–17. doi:10.1256/004316502320517344
Carsten, P. (2010). mud-cracks_9389_600x450.jpg (JPEG Image, 600 × 450 pixels).
National Geographic. Retrieved November 21, 2013, from
http://images.nationalgeographic.com/wpf/media-live/photos/000/093/cache/mud-
cracks_9389_600x450.jpg
Chapin, F. S., Zavaleta, E. S., Eviner, V. T., Naylor, R. L., Vitousek, P. M., Reynolds, H.
L., … Díaz, S. (2000). Consequences of changing biodiversity. Nature, 405(6783),
234–242. doi:10.1038/35012241
Davidavičiūtė, L. (2012). 35 Breathtaking Examples of Patterns in Nature | DeMilked.
demilked. Retrieved November 21, 2013, from http://www.demilked.com/amazing-
nature-patterns/
Morris, E. (2013). Big Brains. Small Films. Benoît Mandelbrot, The Father of Fractals |
IBM. IBM; You Tube: Tumbler. Retrieved November 21, 2013, from
http://www.youtube.com/watch?v=Ehwy4Gq27uY&feature=youtu.be#aid=P-
2A20SZU_k
Moya, D., J. las Heras, F. López-Serrano, S. Condes, and I. A. (2009). Structural patterns
and biodiversity in burned and managed Aleppo pine stands: EBSCOhost. Plant
Ecology 200, no. 2. Retrieved November 21, 2013, from
http://web.ebscohost.com.cmclibraries.coloradomtn.edu/ehost/pdfviewer/pdfviewer?
vid=2&sid=d4197b82-63fb-45c9-b163-9a79a0b68d2e%40sessionmgr198&hid=118
NASA. (2011). kansas-circles_1858585i.jpg (JPEG Image, 620 × 594 pixels) - Scaled
(90%). Barcroft Media/The Telegraph. Retrieved November 21, 2013, from
http://i.telegraph.co.uk/multimedia/archive/01858/kansas-circles_1858585i.jpg
Simard, Suzanne. "Trees Communicate With One Another, Connected by Fungi
(Video)." TreeHugger. MNN Holdings, LLC, 19 July 2012. Web. 18 Nov. 2013.
<http://www.treehugger.com/natural-sciences/trees-communicate-one-another-
connected-fungi-video.html?utm_source=hootsuite>.
7. Citations:
Barker, T. (2007). Climate Change 2007 : An Assessment of the Intergovernmental Panel
on Climate Change. (R. K. Pachauri & A. Reisinger, Eds.)Change, 446(November),
12–17. doi:10.1256/004316502320517344
Carsten, P. (2010). mud-cracks_9389_600x450.jpg (JPEG Image, 600 × 450 pixels).
National Geographic. Retrieved November 21, 2013, from
http://images.nationalgeographic.com/wpf/media-live/photos/000/093/cache/mud-
cracks_9389_600x450.jpg
Chapin, F. S., Zavaleta, E. S., Eviner, V. T., Naylor, R. L., Vitousek, P. M., Reynolds, H.
L., … Díaz, S. (2000). Consequences of changing biodiversity. Nature, 405(6783),
234–242. doi:10.1038/35012241
Davidavičiūtė, L. (2012). 35 Breathtaking Examples of Patterns in Nature | DeMilked.
demilked. Retrieved November 21, 2013, from http://www.demilked.com/amazing-
nature-patterns/
Morris, E. (2013). Big Brains. Small Films. Benoît Mandelbrot, The Father of Fractals |
IBM. IBM; You Tube: Tumbler. Retrieved November 21, 2013, from
http://www.youtube.com/watch?v=Ehwy4Gq27uY&feature=youtu.be#aid=P-
2A20SZU_k
Moya, D., J. las Heras, F. López-Serrano, S. Condes, and I. A. (2009). Structural patterns
and biodiversity in burned and managed Aleppo pine stands: EBSCOhost. Plant
Ecology 200, no. 2. Retrieved November 21, 2013, from
http://web.ebscohost.com.cmclibraries.coloradomtn.edu/ehost/pdfviewer/pdfviewer?
vid=2&sid=d4197b82-63fb-45c9-b163-9a79a0b68d2e%40sessionmgr198&hid=118
NASA. (2011). kansas-circles_1858585i.jpg (JPEG Image, 620 × 594 pixels) - Scaled
(90%). Barcroft Media/The Telegraph. Retrieved November 21, 2013, from
http://i.telegraph.co.uk/multimedia/archive/01858/kansas-circles_1858585i.jpg
Simard, Suzanne. "Trees Communicate With One Another, Connected by Fungi
(Video)." TreeHugger. MNN Holdings, LLC, 19 July 2012. Web. 18 Nov. 2013.
<http://www.treehugger.com/natural-sciences/trees-communicate-one-another-
connected-fungi-video.html?utm_source=hootsuite>.