INDIAN OCEAN DIPOLE (IOD)

Indian Ocean Dipole (IOD) explained with positive and negative phases affecting the Indian monsoon.

INDIAN OCEAN DIPOLE (IOD)

Why in the news?

The Indian Ocean Dipole (IOD) is an important ocean-atmosphere phenomenon that significantly influences the Indian Monsoon, droughts, floods, and climate variability across the Indian Ocean region. It is frequently asked in both UPSC Prelims and Mains.

What is the Indian Ocean Dipole (IOD)?

The Indian Ocean Dipole (IOD) is a climate phenomenon characterized by the difference in sea surface temperatures (SSTs) between the western Indian Ocean (near East Africa) and the eastern Indian Ocean (near Indonesia and Australia).

It was first identified by climatologist Dr. N.H. Saji and colleagues in 1999.

Definition

IOD refers to the oscillation of sea surface temperatures between the western and eastern parts of the Indian Ocean.

Mechanism of IOD

Normally:

Warm waters accumulate near Indonesia and Australia.

The western Indian Ocean remains relatively cool.

Moist air rises over the eastern Indian Ocean, leading to rainfall there.

However, changes in ocean temperatures and wind patterns can disturb this balance, leading to different phases of IOD.

Phases of the Indian Ocean Dipole

1. Positive IOD (+IOD)

Characteristics

The Western Indian Ocean becomes warmer than normal

The Eastern Indian Ocean becomes cooler than normal

Stronger westerly winds push warm water towards Africa

Effects

Enhanced rainfall over India

Increased rainfall in East Africa

Drought conditions in Indonesia and Australia

Historical Examples

  • 1994 Positive IOD
  • 1997 Strong Positive IOD
  • 2019 Positive IOD

The 2019 Positive IOD helped compensate for the weak monsoon caused by El Niño and contributed to above-normal rainfall in India.

2. Negative IOD (-IOD)

Characteristics

The Eastern Indian Ocean becomes warmer than normal

The Western Indian Ocean becomes cooler than normal

Effects

Reduced rainfall over India

Heavy rainfall in Indonesia and Australia

Increased chances of drought in East Africa

IOD and Indian Monsoon

The IOD has a major influence on the Southwest Monsoon.

Positive IOD

Strengthens monsoon circulation

Enhances moisture transport to India

Can offset the adverse effects of El Niño

Negative IOD

Weakens monsoon rainfall

May aggravate drought conditions

IOD vs El Niño

FeatureIndian Ocean DipoleEl Niño
OceanIndian OceanPacific Ocean
CauseSST difference between western and eastern Indian OceanWarming of the central and eastern Pacific
Impact on IndiaCan increase or decrease the monsoonGenerally weakens monsoon
FrequencyIrregular (3–5 years)Every 2–7 years

Important Point

A positive IOD can reduce the negative impact of El Niño on the Indian Monsoon.

Dipole Mode Index (DMI)

The intensity of IOD is measured using the Dipole Mode Index (DMI).

Formula

DMI = SST anomaly in the Western Indian Ocean − SST anomaly in the Eastern Indian Ocean

  • Positive DMI → Positive IOD
  • Negative DMI → Negative IOD

Global Impacts of IOD

East Africa

  • Floods during Positive IOD
  • Drought during Negative IOD

Australia

  • Droughts and bushfires during the Positive IOD
  • Increased rainfall during the Negative IOD

Indonesia

  • Reduced rainfall during the Positive IOD
  • Excess rainfall during the Negative IOD

India

  • Influences monsoon intensity
  • Affects agriculture, water resources, and food security

Climate Change and IOD

Recent studies suggest that climate change may increase the frequency of extreme Positive IOD events.

Potential consequences include:

More extreme floods

More severe droughts

Greater variability in monsoon rainfall

Increased disaster risks in the Indian Ocean region

UPSC Mains Value Addition

Diagrammatic Representation

POSITIVE IOD

East Africa

(Warm SST) ↑ Rainfall

      ← Warm Water Shift

Indian Ocean

Indonesia

(Cool SST) ↓ Rainfall

NEGATIVE IOD

East Africa

(Cool SST) ↓ Rainfall

Indian Ocean

Indonesia

(Warm SST) ↑ Rainfall

Key Takeaways

IOD is an ocean-atmosphere interaction phenomenon in the Indian Ocean.

It is measured through the Dipole Mode Index (DMI).

A positive IOD generally strengthens the Indian Monsoon.

Negative IOD tends to weaken monsoon rainfall.

Positive IOD can sometimes counteract the adverse effects of El Niño.

Climate change may increase the occurrence of extreme IOD events.

UPSC Prelims MCQs

Q1. Consider the following statements regarding the Indian Ocean Dipole (IOD):

  1. It refers to the difference in sea surface temperatures between the western and eastern Indian Ocean.
  2. Positive IOD is generally associated with enhanced monsoon rainfall over India.
  3. Dipole Mode Index (DMI) is used to measure the intensity of IOD.

Which of the statements given above are correct?

A. 1 and 2 only
B. 2 and 3 only
C. 1 and 3 only
D. 1, 2, and 3

Answer:

D. 1, 2, and 3

Q2. Which one of the following conditions best describes a Positive Indian Ocean Dipole event?

A. Warmer eastern Indian Ocean and cooler western Indian Ocean

B. Cooler eastern Indian Ocean and warmer western Indian Ocean

C. Uniform warming across the Indian Ocean

D. Cooling of the entire Indian Ocean

Answer: B

Cooler eastern Indian Ocean and warmer western Indian Ocean

UPSC Mains Practice Question

Q. What is the Indian Ocean Dipole (IOD)? Discuss its mechanism and examine its impact on the Indian Monsoon and climate variability in the Indian Ocean region. (15 Marks, 250 Words)