Ecosystem and Environment 1st Module PDF

Summary

This document provides an introduction to ecosystem and environmental concepts, including various cycles (water cycle, nitrogen cycle). It also discusses ecosystem management strategies and the impacts of environmental pollutants. There are a number of mathematical problems included in the document.

Full Transcript

Ecology and
Ecosystem
Level of
Organization
Ecosytems combine to form a Giant ecosystem
Generalized
Model of
Ecosystem
Structure and
Function of
Ecosystem
Ecological Pyramids and Ecological
Energetics
Individual
Efficiency
Ecological Efficiency
 Ecological
Productivity
Energy Flow
Ecosystem services
Biogeochemical cycles
(“Bio” - living, “Geo” – earth - rock, “Chemical” - element).
The cycling of the nutrients in the biosphere is called biogeochemical or nutrient cycle.
It involves movement of nutrient elements through the various components of an ecosystem.
There are more than 40 elements required for the various life processes by plants and animals; that it’s
proper growth and development. Most important elements are C, H, O, P, K, N, S, Ca, Fe, Mg, B, Zn, Cl,
Mo, Co, I & Fe.
These elements are continuously cycling in the ecosystem through the biogeochemical cycles and the
planet earth has no input of these nutrients.
The nutrients (matter) from the dead remains of organisms are recovered and made available to the
producers by decomposers. Thus, the nutrients are never lost from the ecosystems. Exchange of
nutrients between organisms and their environment is one of the essential aspects of an ecosystem.
All organisms require nutrients for their growth, development, maintenance and reproduction.
Circulation of nutrients within the ecosystem or biosphere is known as biogeochemical cycles and also
called as ‘cycling of materials.
There are 3 basic types, 1. Hydrologic or Water cycle, 2. Gaseous cycle (It includes atmospheric Oxygen,
Carbon and Nitrogen cycles) and 3. Sedimentary cycle – It includes the cycles of Phosphorus, Sulphur and
Calcium - Which are present as sediments of earth.
Nitrogen cycle consists
of the following steps:
fixation,
ammonification,
nitrification,
denitrification and
sedimentation.
Ecosystem management
Ecosystem management is a process that aims to conserve major
ecological services and restore natural resources while meeting the
socioeconomic, political, and cultural needs of current and future
generations.
i. adaptive management,
ii. natural resource management,
iii. strategic management, and
iv. command and control management.
 Adaptive Management is based on future predictions
Natural resource management refers to the management of natural resources
such as land, water, soil, plants and animals, with a particular focus on how
management affects the quality of life for both present and future generations
Strategic management encourages the establishment of goals that will benefit
the ecosystem while keeping socioeconomic and politically relevant issues in
mind
Command and control management utilizes a linear problem-solving approach
where a perceived problem is solved through controlling devices such as laws,
contracts and/or agreements
Fate of environmental pollutants
1. The concentration of Hg in a waterbody is 0.55 mg/L. However, concentration in small fishes were found as 0.8 mg/Kg
and in large fish as 1.56 mg/Kg. Calculate the BCF, BAF, BMF.

2. In a locality the soil was found to be contaminate with 0.45mg/Kg of Cd. A number of wild herbs were collected from
the locality and average Cd concentration was found to be like this
Species A- 0.56 mg/Kg
Species B – 0.25 mg/Kg
Speies C – 1.22 mg.Kg
a. What are their BCFs? Which species are hyperaccumulators?
In the same locality 1st level consumer X and Y feeding on A and C respectively were found to contain 2.8 mg/Kg and 2.6
mg/Kg Cd.
b. What were their BAF and BMF? What was the average TMF?
 ❑ India is both a major greenhouse gas emitter and
one of the most vulnerable countries in the world
to projected climate change.

❑ The country is already experiencing changes in
climate and the impacts of climate change,
including water stress, heat waves and drought,
severe storms and flooding, and associated
negative consequences on health and livelihoods.
Prepared By Joint Global Change Research Institute and
Battelle Memorial Institute, Pacific Northwest Division ❑ With a 1.3 billion but growing population and
dependence on agriculture, India probably will be
severely impacted by continuing climate change.
Global observations of melting glaciers suggest that climate change is well under way in the region, with
glaciers receding at an average rate of 10–15 meters per year. If the rate increases, flooding is likely in
river valleys fed by these glaciers, followed by diminished flows, resulting in water scarcity for drinking
and irrigation.

All models show a trend of general warming in mean annual temperature as well as decreased range of
diurnal temperature and enhanced precipitation over the Indian subcontinent. A warming of 0.5o C is
likely over all India by the year 2030 (approximately equal to the warming over the 20th century) and a
warming of 2-4o C by the end of this century, with the maximum increase over northern India. Increased
warming is likely to lead to higher levels of tropospheric ozone pollution and other air pollution in the
major cities.

Increased precipitation⎯including monsoonal rains⎯is likely to come in the form of fewer rainy days but
more days of extreme rainfall events, with increasing amounts of rain in each event, leading to significant
flooding. Drizzle-type precipitation that replenishes soil moisture is likely to decrease. The timing may
also shift, causing a drying during the late summer growing season.
Specific effects
Agriculture. High-input, high-output agriculture will be negatively affected even
as demands for food and other agricultural products rise because of an increasing
population and expectations for an improved standard of living.
Water: Glacier melt may yield more runoff in the short term but less in the
medium and long terms. More severe storms (especially cyclones) will cause
more damage to infrastructure and livelihoods and exacerbate salt water
intrusion in storm surges.
Changes in the timing and amount of monsoon rains will make the production of
food and other agricultural products more uncertain, so that, even in good-
weather years, farmers will be more likely to make decisions leading to lower-
productivity.
 Exacerbation of Inequality: The welfare of those who are affected by climate
change and who have limited means to adapt may act as a force that can change
governments, strain public budgets, and foster unrest. About one-third of Indians
are extremely poor, and 60 percent depend upon agriculture for their livelihoods.
Energy: As India searches for additional sources of energy to meet rising demand,
climate change mitigation efforts may constrain its use of indigenous and
imported coal, oil, and gas, while development of nuclear energy will be slow at
best and likely to encounter opposition. Other non-emitting technologies will
require technology transfer and capacity-building.
Migration: India receives immigrants from a number of countries. Under climate
change conditions, it may be flooded with many more, particularly from
Bangladesh. Such migration may exacerbate tension between the two countries
as well as putting a strain on Indian central and state governments.