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Subject: Environment

  • Climate change and geopolitics converge to yield locust swarms

    Context

    Abnormal rainfall in the Arabian desert and an effect of the Yemen war have revived a menace that could hit Indian crops

    Butterfly effect- a fitting metaphor for locust attack

    • What is the butterfly effect? The butterfly effect occurs when a trivial cause, such as a butterfly fluttering its wings somewhere in an Amazon rainforest, triggers a series of events that end up having a massive impact elsewhere.
      • Edward Lorenz, the American meteorologist who coined the phrase in the early 1960s, came up with it while building a mathematical model to predict weather patterns.
      • Fitting metaphor: It is a fitting metaphor to explain a “plague” that is currently destroying vegetation and livelihoods in East Africa, the Arabian peninsula, Iran, Pakistan and India.

    The impact of the locust attack in the world

    • Impact in Africa: Several countries in Africa and Asia have been dealing with “the curse of good rains”: Massive swarms—called “plagues”—of the desert locust.
      • Swarms as large as 2,400 sq. km, comprising 200 billion insects, have already damaged over 70,000 hectares of crops in Kenya and around 30,000 hectares in Ethiopia.
    • Last month, Pakistan declared a national emergency over locusts.
    • Impact in India: In India, several districts in Gujarat and Rajasthan have been affected.
      • Rajasthan has announced a compensation of â‚č13,500 per hectare to affected farmers.
      • While locust swarms continue to plague African countries, for now, the outbreak has tapered down in India with swarms headed back towards Sindh and Balochistan.
    • Possibility of return of the locusts: The expectation is that the locusts will be back in June, by which time their numbers would have grown fivefold.

    What are the locusts and how they form swarms?

    • Solitary creature: The brown-coloured desert locust usually lives as a solitary creature in the desert and bushlands.
    • Transformation and swarm formation: When several of them gather in close proximity, they undergo a dramatic physical transformation, change colour to black and bright yellow, become gregarious, and start moving around in swarms.
    • Contribution of moisture and temperature: Locusts lay their eggs a few inches under the soil in the presence of moisture, which hatch faster under higher temperatures.
      • Similarly, the flightless nymphs mature faster under warmer conditions and, within weeks, turn into adults that can form swarms of hundreds of millions of insects that can fly over 100km per day.
    • The scale of destruction: Each locust can eat its own body weight—around 2-3 grams—every day.
      • Which means that a swarm can consume hundreds of tonnes of vegetation that it encounters every day.

    Change in the behaviour pattern

    • Limited to recession areas: Normally, desert locusts are limited to a recession area enveloping the African Sahel to the west and Rajasthan to the east.
      • After international preventive control measures started in the 1940s, the intensity and spread of these swarms reduced, resulting only in regional plagues.

    What contributed to this year’s infestation?

    • Two factors contributed to this year’s infestation:
      • Abnormal weather conditions.
      • Region’s geopolitics.
    • Abnormal weather conditions: In 2018, two cyclones a few months apart delivered rain to the Rub al Khali, the remote desert called the “Empty Quarter” of the Arabian peninsula.
      • The resulting ephemeral lakes created new breeding grounds for the desert locust in a poorly monitored region.
    • Region’s geopolitics: Insecticide spraying operations were not conducted because of the war in Yemen.
      • The breeding continued before the swarms crossed the Gulf into Iran and the Red Sea to Ethiopia and Somalia in the Horn of Africa.
      • Here, too, conflict and political unrest limited control operations, leading to further breeding.
    • Another cyclone in 2019: In December 2019, another cyclonic storm hit the Horn of Africa, creating conditions for yet more breeding.
      • Today, the situation is dire in Somalia, Ethiopia and Kenya, and is worsening in Uganda and Tanzania.

    How affected countries are responding to the infestation?

    • Pakistan declared national emergency: Across the Persian Gulf, the Pakistani provinces of Balochistan and Sindh were initially affected, and when Punjab was hit, the government declared a national emergency and approached China for assistance.
    • How India is responding? Across the border, several districts in Gujarat and Rajasthan were affected and neighbouring states, including Uttar Pradesh, are now on alert.
      • Cooperation between India and Pakistan: Despite political tensions, Indian and Pakistani locust control officials met almost once a month over the second half of 2019 to exchange information, if not coordinate control efforts.
      • So far, India’s surveillance, preparedness and response have been competent and effective.
      • The national Locust Warning Organization was set up in 1939 and is well connected to international institutions created to manage locust risks.
      • It publishes weekly bulletins and even has a Twitter handle.
      • Bulletins show when locusts were detected, the location, extent and tonnage of insecticide sprayed and the risk of future infestation.
    • China’s preparedness: China is largely protected against locust plagues by geographical barriers, but is relatively vulnerable in the Xinjiang region.
      • Past similar event: Faced with a similar situation a couple of decades ago, the Chinese government had deployed hundreds of thousands of ducks that would eat the locusts in response to the blowing of a whistle.
      • Reports in the Chinese media indicate that Beijing plans to do the same this year.

     The immediate concern in India

    • Factors that could worsen the problem: Climate change, with higher temperatures and changes in the Indian Ocean Dipole, could worsen the locust problem for India in coming years.
    • The problem could overwhelm the capacity to control: The immediate concern is that by June 2020, there will probably be extraordinarily large swarms in India and that these could overwhelm the country’s current capacity to control them.
      • Preparedness measures by the government: The Union government is procuring additional spraying equipment and planning helicopter and drone-based control operations should the need arise.
      • Containing the swarms at India’s border states is crucial, as India’s agricultural heartland lies just beyond.

    Conclusion

    The government should take stock of its preparedness to deal with the imminent locust attack in June take necessary actions to deal with the menace as it could threaten India’s food security and economy.

     

     

     

  • Bharat Stage (BS) VI emission norms

    Oil marketing companies have informed that there will definitely be a marginal increase in retail prices of the fuels from April 1. Starting April 1, Bharat Stage (BS) VI emission norms come into force. This will be an upgrade on the currently prevalent BS-IV and BS-III norms.

    Why rise in Oil prices?

    • In effect, as India moves up the BS scale, automobiles become cleaner and greener but fuel will go costly.
    • Oil refiners have invested heavily to upgrade their refineries to produce the cleaner, BS-VI compliant fuel.
    • The increase in the pump price of fuel will partially offset this cost that the oil marketing companies have paid.
    • In effect, consumers will have to pay a little extra for auto fuel that is cleaner, and which, ultimately, is expected to lead to cleaner air.

    The BS norms

    • The BS emission standards are norms instituted by the Indian government to regulate the output of air pollutants from internal combustion engine equipment, including motor vehicles.
    • India has been following the European (Euro) emission norms, although with a time lag.
    • The more stringent the BS norm, lower is the tolerance for pollutants in automobile tailpipe emissions. Lower tailpipe emissions are the function of both more efficient engines, and cleaner fuels.

    How is BS-VI fuel different from BS-IV fuel?

    • The main difference between BS-IV and BS-VI (which is comparable to Euro 6) is in the amount of sulphur in the fuel.
    • The lower the sulphur, the cleaner the fuel, so BS-VI fuel is essentially low-sulphur diesel and petrol.
    • BS-VI fuel is estimated to bring around an 80% reduction in sulphur content — from 50 parts per million (ppm) to 10 ppm.
    • Also NOx emissions from diesel cars are expected to come down by nearly 70% and, from cars with petrol engines, by 25%.

    How will things change with the new fuels?

    • Cleaner fuel alone will not make a dramatic difference to air pollution.
    • For the full benefits to be experienced, the introduction of the higher grade fuel must go hand in hand with the rollout of BS-VI compliant vehicles as well.
    • While automakers will sell only BS-VI vehicles from April 1, all BS-IV vehicles sold before that date will stay on the road for as long as their registration is valid.
    • This, however, could be a concern because using BS-VI fuel in the current BS-IV engines (or conversely, running BS-VI engines on the current-grade fuel), may be both ineffective in curbing vehicular pollution, as well as damage the engine in the long run.

    Back2Basics

    History of BS norms in India

    • India introduced emission norms first in 1991, and tightened them in 1996, when most vehicle manufacturers had to incorporate technology upgrades such as catalytic converters to cut exhaust emissions.
    • Fuel specifications based on environmental considerations were notified first in April 1996, to be implemented by 2000, and incorporated in BIS 2000 standards.
    • Following the landmark Supreme Court order of April 1999, the Centre notified Bharat Stage-I (BIS 2000) and Bharat Stage-II norms, broadly equivalent to Euro I and Euro II respectively.
    • BS-II was for the National Capital Region and other metros; BS-I for the rest of India.
    • From April 2005, in line with the Auto Fuel Policy of 2003, BS-III and BS-II fuel quality norms came into existence for 13 major cities, and for the rest of the country respectively.
    • From April 2010, BS-IV and BS-III norms were put in place in 13 major cities and the rest of India respectively.
    • As per the Policy roadmap, BS-V and BS-VI norms were to be implemented from April 1, 2022, and April 1, 2024 respectively.
    • But in November 2015, the Road Transport Ministry issued a draft notification advancing the implementation of BS-V norms for new four-wheel vehicle models to April 1, 2019, and for existing models to April 1, 2020.
  • Migratory species in India

     

     

    With new additions to the wildlife list put out by the Convention on the Conservation of Migratory Species (CMS), scientists say that the total number of migratory fauna from India comes to 457 species.

    Migratory species in India

    • Globally, more than 650 species are listed under the CMS appendices and India, with over 450 species, plays a very important role in their conservation.
    • The Zoological Survey of India (ZSI) had for the first time compiled the list of migratory species of India under the CMS before the Conference of Parties (COP 13) held in Gujarat recently.
    • It had put the number at 451. They are the Asian elephant, great Indian bustard, Bengal florican, oceanic white-tip shark, urial and smooth hammerhead shark.
    • Birds comprise 83% (380 species) of this figure.

    Various species mentioned

    • India has three flyways (flight paths used by birds): the Central Asian flyway, East Asian flyway and East Asian–Australasian flyway.
    • In India, their migratory species number 41, followed by ducks (38) belonging to the family Anatidae.
    • The estimate of 44 migratory mammal species in India has risen to 46 after COP 13.
    • The largest group of mammals is definitely bats belonging to the family Vespertilionidae. Dolphins are the second highest group of mammals with nine migratory species of dolphins listed.
    • Fishes make up another important group of migratory species. Before COP 13, the ZSI had compiled 22 species, including 12 sharks and 10 ray fish.
    • Seven reptiles, which include five species of turtles and the Indian gharial and salt water crocodile, are among the CMS species found in India. There was no addition to the reptiles list.
  • Species in news: Eurasian Otters

     

     

    Researchers conducting a study in Odisha’s Chilika Lake have found the presence of a viable, breeding population of Eurasian Otters, a fishing cat in the brackish water lagoon.

    Eurasian Otters

    • IUCN Status: Near Threatened
    • Species in India: Smooth-coated, Asian small-clawed and Eurasian Otters
    • Habitat: Smooth-coated — all over India; Asian small-clawed — only in the Himalayan foothills, parts of the Eastern and southern Western Ghats; Eurasian — Western Ghats and Himalayas.
    • Diet comprises several small animals, mainly crabs and small fishes.
    • Lives in small packs, is mostly nocturnal, but can be diurnal in areas which are less disturbed.
  • Explained: Marine Heatwave (MHW)

     

     

    Scientists have observed unusually high sea surface temperatures (SSTs) in the Pacific Ocean around the western coast of the United States.  This marine heatwave (MHW), covering an area of roughly 6.5 million square kilometres, can affect marine life and lead to droughts in the surrounding regions.

    What are MHWs?

    • We know that heatwaves occur in the atmosphere. We are all familiar with these extended periods of excessively hot weather.
    • However, heatwaves can also occur in the ocean and these are known as marine heatwaves, or MHWs.
    • These marine heatwaves, when ocean temperatures are extremely warm for an extended period of time can have significant impacts on marine ecosystems and industries.

    When do they occur?

    • Heatwaves can happen in summer and also in winter, where they are known as “winter warm-spells”.
    • These winter events can have important impacts, such as in the southeast of Australia where the spiny sea urchin can only colonize further south when winter temperatures are above 12 °C.

    What causes marine heatwaves?

    • Marine heatwaves can be caused by a whole range of factors, and not all factors are important for each event.
    • The most common drivers of marine heatwaves include ocean currents which can build up areas of warm water and air-sea heat flux, or warming through the ocean surface from the atmosphere.
    • Winds can enhance or suppress the warming in a marine heatwave, and climate modes like El Niño can change the likelihood of events occurring in certain regions.
    • MHWs can be caused due to large-scale drivers of the Earth’s climate like the El Niño Southern Oscillation (ENSO).

    Impacts of the MHWs

    • Marine heatwaves affect ecosystem structure, by supporting certain species and suppressing others.
    • For example, after the 2011 marine heatwave in Western Australia the fish communities had a much more “tropical” nature than previously and switched from kelp forests to seaweed turfs.
    • Marine heatwaves can cause economic losses through impacts on fisheries and aquaculture.
    • Temperature-sensitive species such as corals are especially vulnerable to MHWs. In 2016, marine heatwaves across northern Australia led to severe bleaching of the Great Barrier Reef.

    How do we measure marine heatwaves?

    • A marine heatwave occurs when seawater temperatures exceed a seasonally-varying threshold (usually the 90th percentile) for at least 5 consecutive days.
    • Successive heatwaves with gaps of 2 days or less are considered part of the same event.

    Why study MHWs?

    • MHWs are increasing in frequency due to climate change. MHWs increased by 54 per cent in the last 30 years.
    • Despite their potential impact on the health of marine ecosystems, MHWs remain one of the least studied consequences of global warming.

    Way Forward

    • Marine heatwaves clearly have the potential to devastate marine ecosystems and cause economic losses in fisheries, aquaculture, and ecotourism industries.
    • However, their effects are often hidden from view under the waves until it is too late.
    • By raising general awareness of these phenomena, and by improving our scientific understanding of their physical properties and ecological impacts, we can better predict future conditions and protect vulnerable marine habitats and resources.
  • Locust Invasions and its mitigation

     

     

    The locust, a short-horned, desert grasshopper that attacks standing crops and green vegetation, has been making news in India since May-June 2019 when it appeared in Rajasthan and Gujarat. In Kharif season last year, it was also seen in a few areas along Punjab’s border with Rajasthan.

    Context

    • The Locust Warning Organisation (LWO) has been taking measures to control attacks by the pest for the past eight decades in the country.
    • Despite all of LWO’s efforts, the chain of periodic locust attacks in India is yet to be broken.

    Why Locusts attacks are deadly?

    • Adult locust swarms can fly up to 150 km (93 miles) a day with the wind and adult insects can consume roughly their own weight in fresh food per day.
    • A very small swarm eats as much in one day as about 35,000 people.
    • If allowed to breed unchecked in favourable conditions, locusts can form huge swarms that can strip trees and crops over vast areas.

    About LWO

    • In India, the scheme Locust Control and Research (LC&R) is responsible for control of Desert Locust.
    • It is being implemented through Organisation known as “Locust Warning Organisation (LWO)” established in 1939 and later amalgamated with the Directorate of Plant Protection Quarantine and Storage in 1946.
    • Locust Warning organization (LWO) is responsible to monitor and control the locust situation in Scheduled Desert Area (SDA) mainly in the States of Rajasthan and Gujarat while partly in the States of Punjab and Haryana.
    • It keeps itself abreast with the prevailing locust situation at National and International level through monthly Desert Locust Bulletins of FAO.

    What measures are being taken by the LWO to control locust breeding/attacks in India?

    • Experts at the LWO said around three dozen offices including 10 circle offices are working on this issue.
    • They have been doing regular field surveys to keeping a close and regular watch on an over two lakh sq. km area (nearly 11,500 villages) of three states including 1.79 lakh sq. km in Rajasthan (52 per cent of the state’s total area), and the remaining in Gujarat and Haryana.
    • To observe the locust, intensive surveys are conducted by walking along the wind direction and driving at low speed to count flying locusts.

    How often have there been locust attacks in India?

    • The pests have been appearing periodically after a gap of 2-3 or 5-7 years. Around 26 locust attacks have taken place in India in two major cycles.
    • After independence (1947), 25 attacks were observed. Among these, the attacks of 1949-55, 1962 and 1993 were most devastating when 167 and 172 swarms were noticed in 1962 and 1993 respectively.
    • Since 1993, locust attacks have occurred less frequently. The latest attack of 2019-20, has had quite a severe effect on crops in Rajasthan.

    Financial losses incurred

    • According to LWO, to date, the financial loss due to locusts is said to be Rs 50 lakh, Rs 2 lakh and Rs 7.18 lakh in 1962, 1978 and 1993 respectively.
    • A loss of Rs 2 crore was incurred in 1940-46 and 1949-55. Before the LWO was formed, a loss of Rs 10 crore is estimated in the 1926-31 cycle.

    Why has the chain not been broken even after 80 years?

    • LWO experts said it is because there are 30 countries in four regions of different continents that have an arid climate with large deserts that provide an ideal breeding ground for the locust.
    • Most of the time, locusts are coming to India from Pakistan, or from the Middle East via Pakistan.
    • There are four commissions for these 30 countries which include Iran, Pakistan, Afghanistan and India.
    • Laxity by any country would lead to its spread in all these countries which they invade one after another by following almost the same path.
    • The swarms which are coming to India (Rajasthan) have been following the same path, starting from central or western region and then Pakistan mostly in summers.
    • Apart from breaking the chain of summer attacks, the winter swarm has now posed another challenge.

    Where did the current locust attack originate?

    • The locust breeds in high temperatures and high humidity, which is prevalent in areas around the Red Sea.
    • The current attack in India, which started in 2019, has its origin in Yemen, where there was internal conflict and civil war.
    • When the locust was breeding in heavy numbers there in 2018-19, the country could not take care due to its attention towards the civil war and lack of resources to control it.
    • The insect went out of control, took the route of Saudi Arabia, Iran, Pakistan, Somalia, Ethiopia and other countries located on both sides of the Red Sea where they multiplied rapidly.

    Control measures

    • The chain can be broken only when the pest is killed at the time of breeding or before migration to another country.
    • Farmers used to try to drive away the locusts by lighting fires. They also dug up the eggs.
    • Now crops can be sprayed with insecticides from vehicles or airplanes.
    • Scientists are trying to improve the control of locusts, by preventing or dispersing swarms.

    Also read:

    https://www.civilsdaily.com/news/desert-locusts-incursion-in-india/

  • Red Snow in Antarctica

     

     

    Over the last few weeks, photographs of “red snow” off the coast of Antarctica’s northernmost peninsula, have gone viral. “Red snow” or “watermelon” is a phenomenon that has been known since ancient times. Now, it raises concerns about climate change.

    Red snow in Antarctica: Why it happens 

    • Aristotle is believed to be one of the first to give a written account of red snow, over 2,000 years ago.
    • What Aristotle described as worms and grub, the scientific world today calls algae.
    • This alga species, Chlamydomonas Chlamydomonas nivalis, exists in the snow in the polar and glacial regions and carries a red pigment to keep itself warm.

    Signs of faster melting 

    • In turn, the red snow causes the surrounding ice to melt faster. The more the algae packed together, the redder the snow.
    • And the darker the tinge, the more the heat absorbed by the snow. Subsequently, the ice melts faster.
    • While the melt is good for the microbes that need the liquid water to survive and thrive, it’s bad for glaciers that are already melting from a myriad of other causes, the study said.
    • These algae change the snow’s albedo — which refers to the amount of light or radiation the snow surface is able to reflect back. Changes in albedo lead to more melting.
  • Svalbard Global Seed Vault

     

    The Svalbard Global Seed Vault — referred to as the earth’s ‘doomsday vault’ — now contains about 1.05 million seeds.

    Global Seed Vault

    • The vault — in the island of Spitsbergen, midway between Norway and the North Pole — opened in 2008 and preserves seeds for several food varieties.
    • The aim of the vault is to preserve a vast variety of crop seeds in the case of a doomsday event, calamity, climate change or national emergency.
    • The vault is artificially cooled at temperatures of minus 18 degrees Celsius.
    • The low temperature and limited access to oxygen will ensure low metabolic activity and delay seed ageing.
    • The permafrost surrounding the facility will help maintain the low temperature of the seeds if the electricity supply fails.

    Access to seeds

    • Vault seed samples are copies of samples stored in the depositing genebanks.
    • Researchers, plant breeders, and other groups wishing to access seed samples cannot do so through the seed vault; they must instead request samples from the depositing genebanks.
    • The samples stored in the genebanks will, in most cases, be accessible in accordance with the terms and conditions of the International Treaty on Plant Genetic Resources for Food and Agriculture, approved by 118 countries or parties.
  • [pib] Indian National Centre for Ocean Information Services (INCOIS)

     

     

    The INCOIS Hyderabad has launched a trio of products for users in the marine realm.

    About INCOIS

    • The institute is an autonomous organisation under the Ministry of Earth Sciences.
    • INCOIS prioritises requests for specific services from its diverse user community that ranges right from fishermen to offshore oil exploration industries.

    Products launched:

    Small Vessel Advisory and Forecast Services System (SVAS)  

    The SVAS is an innovative impact-based advisory and forecast service system for small vessels operating in Indian coastal waters.

    • The SVA system warns users about potential zones where vessel overturning can take place, ten days in advance.
    • The advisories are valid for small vessels of beam width up to 7 m.
    • This limit covers the entire range of beam widths of the fishing vessels used in all the 9 coastal states and union territories of India.
    • The warning system is based on the  ‘Boat Safety Index’ (BSI) derived from wave model forecast outputs such as significant wave height, wave steepness, directional spread and the rapid development of wind at sea which is boat-specific.

    Swell Surge Forecast System (SSFS)

    SSFS is an innovative system designed for the prediction of Kallakkadal/Swell Surge that occurs along the Indian coast, particularly the west coast.

    • Kallakadal/Swell surge are flash-flood events that take place without any noticeable advance change in local winds or any other apparent signature in the coastal environment.
    • Hence the local population remains totally unaware of these flooding events until they actually occur. Such events are intermittent throughout the year.
    • Kallakkadal is a colloquial term used by Kerala fishermen to refer to the freaky flooding episodes and in 2012 UNESCO formally accepted this term for scientific use.
    • Kallakkadal are caused by meteorological conditions in the Southern Ocean, south of 30°S.
    • These swells once generated, travel northward and reach the Indian coasts in 3-5 days time, creating havoc in the coastal areas.
    • The system will now predict Kallakkadal and warnings will be given to concerned authorities at least 2-3 days in advance, which will help the local authorities for contingency plans and to reduce damage.

    Algal Bloom Information Service (ABIS)

    • The increasing frequency of algal blooms is a major concern due to its ill effects on the fishery, marine life and water quality.
    • INCOIS has developed a service for “Detection and Monitoring of Bloom in the Indian Seas”.
    • The target users are fishermen, marine fishery resource managers, researchers, ecologists and environmentalists.
    • The service also complements INCOIS’ marine fishing advisories i.e. Potential Fishing Zone advisories.
    • INCOIS-ABIS will provide near-real-time information on spatio-temporal occurrence and spread of phytoplankton blooms over the North Indian Ocean.
    • In addition, four regions have been identified as bloom hotspots viz.

    a) North Eastern Arabian Sea

    b) coastal waters off Kerala

    c) Gulf of Mannar and

    d) coastal waters of Gopalpur

  • [pib] ‘1000 Springs’ Initiative

     

     

    Union Tribal Affairs Ministry has launched “1000 Spring Initiatives” and an online portal on GIS-based Spring Atlas with hydrological and chemical properties of the Springs on the occasion.

    ‘1000 Springs’ Initiative

    • The ‘1000 Springs Initiative’ aims at improving access to safe and adequate water for the tribal communities living in a difficult and inaccessible part of rural areas in the country.
    • It is an integrated solution around natural springs.
    • It includes the provision of infrastructure for piped water supply for drinking; provision of water for irrigation; community-led total sanitation initiatives; and provision for water for backyard nutrition gardens, generating sustainable livelihood opportunities for the tribal people.
    • It will help in harnessing the potential of perennial springs’ water to address the natural scarcity of water in tribal areas.

    Spring Atlas

    • Springs are natural sources of groundwater discharge and have been used extensively in the mountainous regions across the world, including India.
    • However, in the central and eastern Indian belt with more than 75% tribal population, it remains largely unrecognized and under-utilized.
    • An online portal on GIS-based Spring Atlas has been developed to make these data easily accessible from an online platform.
    • Presently, data of more than 170 springs have been uploaded on the Spring Atlas.