Ecology, Environment & Biodiversity – Lecture 1: Introduction to Ecology

Mizoram Civil Service Exam Notes | Environment Series


If you’re preparing for UPSC, MPSC, or any state civil services exam, Environment & Ecology is one of the most scoring subjects. These are my personal notes from coaching class, converted into blog format so you can study anytime, anywhere.

Let’s start from the very beginning — What is Ecology?


What is Ecology?

  • The word Ecology comes from the Greek word oikology — derived from oikos (house/home/habitat) + logos (study).
  • (Interesting fact: The word “economics” also comes from oikos — oikonomy means “house keeping”)
  • The term Ecology was coined by Ernst Haeckel in 1866, a German zoologist.
  • Ecology means the study of the house or the habitat of an organism — a living animal or plant.

Key Definitions of Ecology

ScholarYearDefinition
Elton1927“The study of animals and plants in relation to their habits and habitats”
Odum1971“Scientific study of the structure and function of nature”
Krebs1978“The scientific study of interactions that determine the distribution and abundance of organisms”

MPSC 2012 Question: Who first used and defined “ecology” in 1866?
Answer: (b) Haeckel


Branches of Ecology

1. Autecology (Ecology of Individuals)

  • Also known as ecology of individuals
  • Unit of study = individual organism
  • Studies details of their geographic distribution, morphology, taxonomic position, and life cycles

2. Synecology (Ecology of Groups)

  • Studies groups of organisms (communities)
  • Focuses on natural groups affecting each other’s life
  • Unit of study = community

Exam Tip: The branch of ecology which deals with individual organisms as a unit of study is known as (a) Autecology


Factors Influencing Ecology

Ecological factors are broadly divided into two types:

Biotic Factors (Living)

  • Autotrophs — producers
  • Heterotrophs — consumers
  • Decomposers — break down organic matter

Abiotic Factors (Non-living)

  • Light
  • Temperature
  • Water
  • Atmospheric gases
  • Wind
  • Soil
  • Physiographic factors

Biotic Factors in Detail

Autotrophs

  • Produce organic compounds on their own
  • Derive chemical energy from carbohydrate food molecules (C₆H₁₂O₆)
  • Production needs:
  • Carbon source → CO₂
  • Energy → Light or reaction of inorganic compounds
  • Light energy (free energy) → converted into chemical energy (potential energy), i.e., food like sugar

Types of Autotrophs:

  • Photolithoautotrophs — organisms using light (plants, algae, etc.)
  • Chemolithoautotrophs — organisms using oxidation of inorganic compounds (some bacteria)
  • Autotrophs that transform sunlight to make food → Photosynthesis
  • Using inorganic compounds → Chemosynthesis

MPSC 2012: Which organism does not require sunlight to live?
Answer: (a) Chemosynthetic bacteria

UPSC 2014: Which is the process involved in photosynthesis?
Answer: (b) Free energy is converted into potential energy and stored

UPSC Question: The synthesis of organic compounds from inorganic compounds utilizing energy stored in inorganic substance is called?
Answer: (b) Chemosynthesis


Heterotrophs

  • Organisms that obtain carbon for growth and development from other organic substrates
  • Examples: Fungi, some bacteria, animals (Herbivores, Carnivores, Omnivores)
  • Depend on autotrophs at various trophic levels (1° 2° 3° 4° 5° … upto)

Classic Food Chain Example:

Grass → Grasshopper → Frog → Snake → Eagle


Decomposers

  • Organisms that break down organic materials to gain nutrition and energy
  • They release raw nutrients into the environment after breaking down
  • Examples: Bacteria, Fungi (Note: NOT viruses — decomposers do not contain viruses)

UPSC 2013: With respect to food chain, which organisms are decomposers?

  1. Virus 2. Fungi 3. Bacteria
    Answer: (b) 2 and 3 only

Abiotic Factors in Detail

Light

  • Light energy (sunlight) is the primary source of energy for all ecosystems
  • Used by green plants during photosynthesis
  • Key factors of light that play an important role:
  • Quality of light — blue and red are the two bands of light that plants can absorb
  • Intensity of light — depends on latitude and season
  • Length of light period (Photoperiod) — categorized as:
    • (i) Long day
    • (ii) Short day
    • (iii) Day neutral

Plant Types Based on Light Period:

  • Long Day Plants → related to the darkness to which the plant is exposed; does not require a lot of light; no flowering if exceeded
  • Short Day Plants → require a minimum length of dark period/night
  • Day Neutral Plants → light period does not matter for them

Temperature

  • Contributes to erosion and creation of soil
  • Different organisms have different cellular tolerances for cold and heat

Water

  • Important component in erosion and generation of soils
  • Terrestrial and freshwater environments require animals and plants to conserve water and evolve ways to maintain water/salt balance

Plants Categorized by Water Adaptation:

TypeDescriptionExample
XerophyteEvolutionary adaptations for dry/xeric environments; requires minimum waterCactus
HydrophyteEvolutionary adaptations for wet/hydric environments; requires large amount of waterLotus, Hyacinth
MesophyteEvolutionary adaptations for moderate conditionsAll land plants

Exam Question: The plants which can survive with minimum quantity of water?
Answer: (d) Xerophytes


Atmospheric Gases

  • Most important gases used by plants and animals:
  • Oxygen — Respiration
  • Carbon Dioxide — Photosynthesis (plants)
  • Nitrogen — Lightning & bacteria → plant nutrition

Soil (Abiotic Factor — continued from Lecture 1)

  • Has physical, chemical, and biological properties
  • Properties include: colour, texture, structure, moisture, air, density, bulkiness
  • Key soil characteristics: pH, cation exchange capacity, anion (AEC), base saturation

Soil particle sizes:

  • Clay: < 0.002 mm
  • Silt: 0.002 – 0.02 mm
  • Fine sand: 0.02 – 0.2 mm
  • Coarse sand: 0.2 mm – 2 mm
  • Gravel: > 2 mm

Biological prep of soil: Roots of trees, microorganisms in soil (bacteria, actinomycetes), worms, rodents, etc.

Physiographic Factors

  • Altitude, latitude, slope, aspect, etc.

Quick Revision Summary

TopicKey Point
Ecology coined byErnst Haeckel, 1866
AutecologyIndividual organisms
SynecologyGroups/communities
AutotrophsMake their own food
HeterotrophsDepend on others
DecomposersBreak down organic matter
PhotosynthesisLight energy → chemical energy
ChemosynthesisInorganic compounds → organic compounds
XerophyteDry environment plants (e.g., cactus)
HydrophyteWet environment plants (e.g., lotus)

This wraps up our introduction to the core pillars of Ecology!
Did the notes clarify the foundational definition of ecology, the critical distinction between Autecology and Synecology, and exactly how previous MPSC/UPSC questions target biotic and abiotic factors? I’ll post the next chapter soon.

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