14 July 2017

What exactly are antibiotics? How do they work? And why haven’t we curbed their use, despite the overwhelming evidence of growing antibiotic resistance?

What exactly are antibiotics? How do they work? And why haven’t we curbed their use, despite the overwhelming evidence of growing antibiotic resistance?
Today, less than 100 years after the serendipitous discovery of penicillin, antibiotics have almost become a household remedy. Though we were quick to exploit the therapeutic values of antibiotics, for too long we paid scant heed to the sustainability of these wonder drugs (long-term thinking has rarely been mankind’s forte).
In a few decades, antibiotics may very well be as useless as placebo sugar pills. On the bright side, a few of us at least are watchful of fast-approaching threats. For years now, scientists have issued dire warnings about the dangers of antibiotic resistance (unfortunately, we still have a long way to go). But before we get into why that is, let’s consider a simple question: exactly what are antibiotics?
It may surprise you to know that antibiotics were not made by, or for, humans. Many microbes produce various substances, including antibiotics, to kill other microbes that are their competitors for food and space. Humans just happened to find a way to take advantage of this microbe-on-microbe conflict.
The molecular weapons deployed are nasty chemicals which can harm the enemy in different ways. They can bore holes in the sheath that protects microbial cells. Or they can short circuit important life processes when ingested.
The microbial artillery of antibiotics varies widely, with different capacities and specificities. Some antibiotics merely arrest the growth of their enemy, while others outright kill their target. Every environment on the planet—from soil to water to sand to the bodies of other living beings (like us)—is the battleground for this bacterial warfare for food and space.
Some of the parties involved bode ill for human beings. Our organs are 'space' for them, and the stuff inside those organs, including our cells, serves as food. Our natural defences against these enemies: the wonderfully complex and effective human immune system.
The battle has been raging for millions of years—our ancestors, and the ancestors of the microbes we battle today, kept evolving new weapons and defence systems. Each side loses some of its battles and, quite naturally, in spite of multiple lines of defence employed by our immune system, bacterial infections can often maim or kill. This happens most often when the immune system is not at its best—for instance, when an individual is severely wounded or suffers from long-term illnesses, or when people are on immunosuppressive medication.
Wonder drug
The discovery of antibiotics was a fortunate accident. On 3 September 1928, in St Mary’s Hospital in London, Alexander Fleming, a professor of bacteriology, found something curious while studying a Staphylococcus specimen (this particularly notorious bacterium is often responsible for food poisoning, abscesses, boils and sore throats).
Fleming saw that the petri dish was full of Staphylococcus colonies, thriving on the nutritious jelly, save for a blob of unwanted fungus growing in the middle and a nice clear zone around it. Clearly, the fungus was somehow inhibiting the growth of Staphylococcus. A substance oozing out of the miracle fungus was later identified as penicillin. The rest is history.
Let’s come back to the present for now. We have reached a stage where antibiotics have become an indispensable part of our medical system. Hundreds of different antibiotics have now been identified and many more are discovered every year. Their chemical structure, mechanism of action and possible targets are well known.
Scientists first found the microbes that make the weapons against microbes that infect humans, and then devised a way to separate these weapons from their makers. Afterwards, they took it a step further and synthesized antibiotics chemically, without any microbial aid.
In 2000, a staggering 150 million pounds (68 million kg) of natural and synthetic antibiotics were produced worldwide. We use antibiotics not only to treat the bacterial infections but also to prevent infections.
So, what's the problem?
Amid all this, though, we underestimated the bacteria. Not unlike us, microbes have millions of years of experience in this warfare and over time, more and more grew resistant to the antibiotics. Our estimates for the evolution and spread of these defence strategies, unfortunately, were quite off the mark.
In 1950, 20 years after penicillin was discovered, scientists were largely of the opinion that antibiotic resistance would be a rare phenomenon. We now have ample evidence to the contrary.
In the face of the antibiotic menace, microbes evolve different kinds of mechanisms to render the drugs useless. For instance, one common strategy is to recognize the harmful antibiotic and pump it out of the cell. Another is to change the structure of the the socket where the antibiotic would plug in, preventing the short-circuit. A microbe with any of these tricks, unhindered by the presence of antibiotics, will reproduce happily.
And what’s more, once evolved, the genes for resistance are swiftly circulated through a microbial game of passing the parcel. Unfortunately, the music never stops and the resistance can spread across continents. On top of that, it is only (relatively) recently that we began to fathom the magnitude of this problem. And when it comes to predicting the course of antibiotic resistance, we are only slightly better than cavemen trying to judge the distance between the moon and the earth.
The laws of physics allow us to predict the movements of planets and stars. Remember that scene from 2001: A Space Odyssey (the book, not the film) where a spaceship uses the gravitational field of Jupiter to speed itself up, sort of like a slingshot, and propels itself towards Saturn? Well, we’ve actually managed to pull off something similar, during the Voyager launch. And with superb precision. The same, alas, cannot be said for most of things in biology.
The most important reason for this failure is the fact that, unlike astrophysicists, biologists deal with living things. In the antibiotic wars, we fight against beings that have been selected through billions of years of evolution and whose survival skills are second to none.
A way out
Does this mean that the trick, i.e. resistance to any given antibiotic, needs to evolve only once on our planet? Before spreading to every microbe?
Not at all. Life is rarely wasteful—if there isn’t an antibiotic in the environment of the microbe, building the defences to keep it out is a waste of energy. If the antibiotic is not encountered for a long time, storing and sharing the defensive trick is also a waste.
And there lies the crux of the problem. We now use antibiotics to such an extent that most environments are teeming with them. The pressure to retain survival techniques is always on. And hence the resistance is persisting and spreading.
What does this mean for us? Soon, antibiotics might not be effective at thwarting the infections. We might have to suffer our day-to-day infections a bit longer. But we still have our almighty immune systems, right?
Yes, we do. But many medical procedures, from common surgeries to cancer treatments to organ transplants, involve the active suppression of immunity. The patient faces a tremendous risk of infections. Simple accidents, like stepping on a nail, could prove tragic in the absence of effective antibiotic treatment.
This might sound overly pessimism to many, but unless we take immediate measures, it may become reality in the not-too-distant future.
This brings us to another question: what is it that we can do? Currently, our best bet is the moderation of antibiotic use. How, though, can we achieve this without serious drawbacks? There are quite a few options.
One is to minimize the administration of antibiotics to domesticated animals. Nearly 50% of antibiotics produced in the world are administered to animals, not as a treatment, but to improve the yields of meat.
Two, for humans, antibiotics are often prescribed before the disease-causing agent is identified. In the majority of instances, the culprit is some kind of virus, against which antibiotics are useless. But testing samples of bodily fluids is costly and time consuming. This results in blind prescription of antibiotics—sometimes even a cocktail of them—by physicians.
In many countries, India included, antibiotics can be bought over the counter without a prescription, and hence are consumed more than actually necessary or even effective.
If globalization has bought world the closer, it has also bought its own “global” problems with it. We should try, and I dare say we are trying, to fight them globally.
Across the world, attempts are being made to regulate the usage of antibiotics. Scientists are trying to discover more and better antibiotics, as well as new ways to utilize the existing repertoire. We might even stumble upon a new wonder weapon. But these attempts will require much time and, of course, large amounts of money. For now, though, we must build awareness of the issue and minimize the use of antibiotics.

Indian astronomers discover supercluster of galaxies, name it ‘Saraswati’

Indian astronomers discover supercluster of galaxies, name it ‘Saraswati’
The Saraswati supercluster, 4 billion light years away from us, has 43 galaxies, discover Indian astronomers
In a significant discovery, a team of Indian astronomers have identified a previously unknown, extremely large supercluster of galaxies located in the direction of constellation Pisces.
The supercluster of 43 galaxies, which they named “Saraswati”, is one of the largest known structures in the nearby universe, and is 4 billion light years away from us and may contain the mass equivalent of over 20 million billion suns
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A supercluster is a chain of galaxies and galaxy clusters, bound by gravity, often stretching to several hundred times the size of clusters of galaxies, consisting of tens of thousands of galaxies. The Saraswati supercluster, for instance, extends over a scale of 600 million light years.
The Milky Way, the galaxy we are in, is part of a supercluster called the Laniakea Supercluster, announced in 2014 by Brent Tully at the University of Hawaii and collaborators.
The Saraswati discovery was made by astronomers from India’s Inter University Centre for Astronomy and Astrophysics (IUCAA) and the Indian Institute of Science Education and Research (IISER), both in Pune, and members of two other Indian universities. IUCAA is an autonomous institution set up by the India to promote the nucleation and growth of active groups in astronomy and astrophysics at Indian universities.
“This novel discovery is being published in the latest issue of The Astrophysical Journal, the premier research journal of the American Astronomical Society,” said an official statement from IUCAA.
“The Saraswati supercluster is observed as it was when the universe was 10 billion years old,” IUCAA said in the statement. Thus, the findings could push researchers to rethink the popular theories of how the universe got its current form.
“The long-popular ‘cold dark matter’ model of the evolution of the universe predicts that small structures like galaxies form first, which congregate into larger structures. Most forms of this model do not predict the existence of large structures such as the Saraswati Supercluster within the current age of the universe. The discovery of these extremely large structures thus force astronomers into re-thinking the popular theories of how the universe got its current form, starting from a more-or-less uniform distribution of energy after the Big Bang,” the statement said.
Interestingly, Somak Raychaudhury, currently director of IUCAA and a co-author of the paper, had also discovered the first massive supercluster of galaxies on this scale (the Shapley Concentration), during his PhD research at the University of Cambridge decades ago.
In his paper published in the journal Nature in 1989, Raychaudhury had named the supercluster after the American astronomer Harlow Shapley, in recognition of his pioneering survey of galaxies.
Joydeep Bagchi from IUCAA, the lead author of the paper, and co-author Shishir Sankhyayan (PhD scholar at IISER, Pune) said, ‘’We were very surprised to spot this giant wall-like supercluster of galaxies, visible in a large spectroscopic survey of distant galaxies, known as the Sloan Digital Sky Survey.”
“This supercluster is clearly embedded in a large network of cosmic filaments traced by clusters and large voids. Previously only a few comparatively large superclusters have been reported, for example the ‘Shapley Concentration’ or the ‘Sloan Great Wall’ in the nearby universe, while the ‘Saraswati’ supercluster is far more distant one. Our work will help to shed light on the perplexing question; how such extreme large scale, prominent matter-density enhancements had formed billions of years in the past when the mysterious Dark Energy had just started to dominate structure formation,’’ the duo said in a statement.

Rethinking regulators and regulatory Acts

Rethinking regulators and regulatory Acts
It is of immediate concern to take a fresh look at prevailing regulatory Acts if regulators are to be effective in the markets of the future
The pace of innovation in high-technology disruptive markets, defying traditional market boundaries, has created fluidity in the definitions of market, monopoly and the concept of dominance outside the confines of existing regulatory Acts. A rethink on the role of regulators and their efficacy in these markets, as also the revision of existing Acts, is of immediate concern.
Telecommunications is one sector where the changes have been disruptive and innovative, covering a wide range of services far removed from the traditional fixed-line telephones—the natural monopoly segment associated with the sector.
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The telecommunication sector now includes networks, internet services, virtual markets, the Internet of Things, cloud computing and the entire gamut of services using the information highway with innovative approaches to combining voice and data. It is the digital space of virtual markets that promises growth to Indian start-ups and multifold benefits to consumers.
Should this sector come under the purview of the Telecom Regulatory Authority of India (Trai) or the Competition Commission of India (CCI)? Or should it be left to the market, with regulation limited to safety and dispute resolution mechanisms for consumers? After all, inappropriate intervention by any regulator can sound the death knell for the sector.
Trai’s attempts at repositioning itself in the new dynamism of markets has seen it come out with consultation papers, most recently on fixing retail tariffs. These are positive developments that should provoke wider discussion. Unfortunately, Trai, like all regulators, is caught between an archaic legislation and a sector that defies legal confines.
“Forbearance”, or distancing from fixing retail tariffs, is the new principle that Trai plans to follow. Under the suggested dispensation, telecommunications service providers (TSPs) will be free to fix their retail tariffs and are only required to comply with a list of conditions that emphasize transparency, consistency and clarity.
However, Trai seems compelled by Section 11(2) of the Trai Act to bring in two principles of tariff fixation. Even more surprising is the choice of non-discrimination and predation as principles of tariff fixation.
As ex-post facto outcomes, the two principles, fixed on an ex-ante basis, will fail to capture the benefits of a nuanced dynamic pricing policy that the sector is currently witnessing. Instead, TSPs such as Bharti Airtel Ltd, Vodafone India Ltd, Reliance Jio Infocomm Ltd, Mahanagar Telephone Nigam Ltd (MTNL), Bharat Sanchar Nigam Ltd (BSNL) and other service providers may prefer to revert to the traditional staid pricing schemes, if only to avoid regulatory intervention.
Discriminatory pricing between consumer groups can be consumer-welfare enhancing while zero pricing need not necessarily be predatory, especially if the marginal costs are zero. Pricing decisions taken by firms are based on several factors, which include information of consumer consumption patterns and “willingness-to-pay”; their own long-run cost structures and the pricing strategies of competitors. Under competitive conditions, price discovery is by the market. The Trai Act structured in the economics of natural monopoly set within the framework of “principal agent” may not be able to appreciate dynamic pricing schemes.
As a licensed activity, the tail-end activity of TSPs also comes under the domain of Trai. Section 11(2) mandates Trai to fix tariffs for all licensed activity. Unease stems from the fact that Trai lacks both the expertise and the legal backing.
Meanwhile, CCI, under the Competition Act, has no powers to fix tariffs. It can only investigate allegations of abuse using the economic analysis of monopolistic competition facilitated by the right to private action (Section 19) unique to the Competition Act. This right vested with CCI provides access to private consumer information that is so essential in understanding discrimination or defining predation.
Further, the commission has the right to levy fines but Trai doesn’t. If Trai seeks powers for damage claims by way of subordinate legislation, it will only encourage firms to indulge in forum shopping to the disadvantage of new entrants and consumers.
If expertise and legal backing indicate that predatory pricing and discriminatory pricing are in the realm of CCI, it is equally important to see if the Competition Act constrains the CCI from assessing competition on the information highway.
The digital space of this highway has no boundaries between products and services and between nations at odds with traditional price-cost parameters of competition. Antitrust authorities are currently grappling with the following questions : i) how to define the relevant product market when the product is free; ii) how to demarcate geographic boundaries for viral networks that do not follow national boundaries; iii) what constitutes predatory pricing or discrimination when prices are not charged purely on account of the fact that marginal costs are negligible within the framework of legal structures.
Emergent new metrics of competition fail to establish unequivocally the dominance of large entities and of abuse. The recent dismissal of the allegation of predatory pricing by CCI in the Bharti Airtel versus Reliance Jio case was on traditional measures of dominance. As in the case of the consultation paper, CCI’s decision is a welcome one. But does it provide comfort for intervening in future information markets? That said, it does provoke a rethink on prevailing regulatory Acts if regulators are to be effective in the markets of the future.

The 30-year itch in India-China ties

The 30-year itch in India-China ties
The biggest foreign policy crisis of the year is India’s chance to comprehensively revamp its China policy
The stand-off at the India-Bhutan-China tri-junction reflects the dissonance in the Sino-Indian relationship, driven by a hardening of the Chinese stand on territorial claims. Some Indian analysts suggest a comprehensive relook at India’s approach to such assertiveness, while others believe such a “reset” is already under way.
The last such “reset” of relations was in 1988, when Rajiv Gandhi visited China. Though a trip had been in the making since 1984, a formal invitation arrived with the Chinese vice-foreign minister in 1987. The trip next year, the first premier-level exchange since 1960, eased strains accumulated from the days of Jawaharlal Nehru-Zhou Enlai. This indicates that a relationship “reset” has a shelf-life of about three decades. So, if it is time to reassess, what should it entail?
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As part of my research, I recently interviewed senior members of the foreign policy establishment in the Rajiv Gandhi government. They said they knew that the engagement resulting from the 1988 visit would break from established policy. It was their opportunity to separate border disputes from other issues and introduce cooperation into a relationship of contention.
The benefits of the 1988 modus vivendi accrued to both sides. Bilateral trade flourished, the boundary issue was managed, and both countries could grow as economic powerhouses without being tied down in their backyards.
Thirty years later, there is a growing view that the 1988 rapprochement has run its course. As those I interviewed explained, with both countries expanding global roles, the agreement needs a revisit.
For some years now, the Chinese elite have believed that their time as the pre-eminent power has arrived. Initiatives like “China Dream” for a “fully developed Chinese nation”, or the Belt and Road Initiative (BRI) are critical to hoist China to the centre of the international system. Publicizing the BRI summit in May was a way of claiming legitimacy for this role.
These alone perhaps would not have required an immediate reorientation. However, US President Donald’s Trump’s apparent transactional approach to Asia makes it a pressing necessity. There is little clarity on how a distracted American administration would react to developments in South Asia.
China believes this is its opportunity to claim geopolitical space in Asia. The selective approach to terrorism, or opposing India’s entry to the Nuclear Suppliers’ Group, indicate where it wants to see India in a China-led order. The China-Pakistan Economic Corridor through Gilgit-Baltistan helps tie down India in South Asia. Similarly, the current stand-off is China’s attempt to legitimize its claim and change the status quo.
The Doklam incident follows a template that China has been using for a while. This involves identifying an area with unsettled claims, and moving in. When challenged, an indignant China claims rights “since ancient times”. As evident elsewhere, China has carefully separated the project of reclaiming national pride from economic relationships—which means better trade relations or Chinese direct investment alone is unlikely to change anything.
The closeness following 1988 was as much a necessity for China as it was for India. Still not an economic behemoth, China needed newer markets to expand. The post-Tiananmen crackdown soon after also made it necessary to nurture new relationships. The China of 2017, however, is far removed from the China of 1988, and India must account for this asymmetry.
First, recalibrating the relationship will require clear signalling of expectations and nuanced communication. Not all developments will merit a reaction but the ones that do will need to be identified and responded to, purposefully. These may include China inciting anti-India sentiment in the neighbourhood, or impeding infrastructure development in Indian territory. To consider these red lines will demand communicating the message clearly; if tested, India will also need to demonstrate that it has a multi-step strategy, and the willingness to follow it.
Second, the government will have to decide on responses—will it challenge China’s own red lines, its “core interests?” India’s approach has changed since the 2015 Chumar incursion. Tibet policy, too, shifted when the “prime minister” of the Central Tibetan Administration attended Narendra Modi’s swearing-in. Turning these separate incidents into cohesive strategy will leave little room to dither. Missteps like the one involving Uyghur activist Dolkun Isa’s visit will have to be avoided. Closer relations with Taiwan will also demonstrate resolve. Following up on these will require determination and finesse, and no space for muddling through.
Third, India will have to consider context while responding. For instance, is it sufficient to only protest China’s stand on Masood Azhar, or will questioning China’s equivocation on terrorism help more? How do the economic and strategic benefits of BRI stack up against the objections?
Admittedly, answering these questions is far easier in theory than in practice. An ad-hoc approach will not work for a reorientation of foreign policy of this magnitude. Serious institutional energy will have to be spent in considering all options and planning a coherent strategy. As in 1988, it will require deliberate signalling that the entire relationship will not hinge only on these issues. As the veterans of South Block explained, the earlier “reset” worked because it was consistently nurtured for years. Another one, if considered, will also need to play the long game

DIPP to set up India’s first TISC in Punjab

DIPP to set up India’s first TISC in Punjab
The Department of Industrial Policy and Promotion (DIPP), Ministry of Commerce & Industry, Government of India, signed an Institutional agreement with the Punjab State Council of Science and Technology in New Delhi today to establish India’s first Technology and Innovation Support Center (TISC) at Patent Information Centre, Punjab, under the World Intellectual Property Organization’s (WIPO) TISC program.

The objective of the TISC is to stimulate a dynamic, vibrant and balanced Intellectual Property Rights (IPRs) system in India to foster creativity and innovation, thereby promoting entrepreneurship and enhancing social, economic and cultural development by establishing a network of TISCs in India.

WIPO’s Technology and Innovation Support Center (TISC) program provides innovators in developing countries with access to locally based, high quality technology information and related services, helping them to exploit their innovative potential and to create, protect, and manage their Intellectual Property Rights (IPRs).

Services offered by TISCs include:
•    Access to online patent and non-patent (scientific and technical) resources and IP-related publications;
•    Assistance in searching and retrieving technology information;
•    Training in database search;
•    On-demand searches (novelty, state-of-the-art and infringement);
•    Monitoring technology and competitors;
•    Basic information on industrial property laws, management and strategy, and technology commercialization and marketing.

The Cell for IPR Promotion and Management (CIPAM) is designated as the National Focal Point for the TISC national network. As the national focal point, CIPAM shall identify potential host institutions, assess their capacities and support them in joining the TISC program. CIPAM will also act as the main intermediary between WIPO and TISC host institutions and coordinate all the activities of the national TISC network.

Over 500 TISCs operate worldwide and establishing TISC in India will give the host institutions an access to the global network. In upcoming years, CIPAM is planning to establish TISCs in Universities, State Science Councils, R&D institutions etc. TISC will give an impetus to knowledge sharing, sharing of best practices among the TISCs, capacity building, generation and commercialization of IPs.   

National Livestock Mission (NLM) provides assistance to improve availability of quality feed and fodder, risk mitigation and extension, skill development and training for livestock sector

Ministry of Agriculture
National Livestock Mission (NLM) provides assistance to improve availability of quality feed and fodder, risk mitigation and extension, skill development and training for livestock sector: Shri Radha Mohan Singh
One of the reasons for setting up NLM from scheme-mode to mission-mode is to provide the necessary flexibility to all States and Union Territories: Shri Singh

There is a need to augment resources for the sector and synergise activities through appropriate convergence: Shri Singh

Shri Radha Mohan Singh addresses the members at the second General Council meeting of National Livestock Mission.

Union Agriculture and Farmers Welfare Minister, Shri Radha Mohan Singh today presided over the second General Council meeting of the National Livestock Mission (NLM). Shri Singh said Department of Animal Husbandry, Dairying and Fisheries is implementing National Livestock Mission for sustainable development of Livestock Sector, especially for poultry, goats, sheep, pig, pack animals, etc.
Shri Radha Mohan Singh said NLM provides assistance to improve availability of quality feed and fodder, risk mitigation and extension, skill development and training for livestock sector including cattle and buffaloes. The livestock rearers and farmers, especially women, are unorganised, as these activities are primarily backyard in nature. However, rearing small ruminants, backyard poultry, pigs and other minor livestock offers tremendous opportunities for improving both nutritional and livelihood security of livestock rearers with specific scientific interventions.
Shri Singh said one of the reasons for setting up NLM from scheme-mode to mission-mode is to provide the necessary flexibility to all States and UTs in undertaking appropriate interventions suited to their conditions. Taking into account the overall requirement of the livestock sector, there is a need to augment resources for the sector and synergise activities through appropriate convergence, under the umbrella of NLM to supplement the efforts of the States and UTs to take care of the activities which cannot be accommodated within other ongoing schemes.
Shri Radha Mohan Singh said all components under the NLM are made flexible and modular, looking into the needs of farmers and stake holders, and as per the geographical and regional requirements so that even the small and marginal farmers can also avail the benefits of the activities proposed under NLM. The distribution of resources and subsidies are also made equitable with considerations for APL, BPL beneficiaries and beneficiaries of North Eastern Region, Hilly, Left Wing Extremism areas so that the beneficiaries in more disadvantageous position get equitable benefits for sustainable livelihood.
The National livestock Mission is organised into the following four sub-Missions:
i. Sub-Mission on Livestock Development
ii. Sub-Mission on Pig Development in North-eastern Region
iii. Sub-Mission on Fodder and Feed Development
iv. Sub-Mission on Skill Development, Technology Transfer and Extension
A detailed presentation was given on various components of NLM sub-missions in the meeting.
               Shri Singh said close alignments of the guidelines is mandatory for the smooth execution of various programs and effective implementation of interventions.
 
NLM’ last three years achievements and milestones are as follows:
  32,981 Beneficiaries have been assisted under Entrepreneurship Development & Employment Generation (EDEG).
  3.68 lakh beneficiaries funded for assistance under Rural Backyard Poultry Development.
  35.64 lakh animal insurance has been under taken.
  3.00 lakh Goat and 9.80 lakh pig has been given health support.
  41 state Poultry /Sheep/ Goat Piggery Breeding Farms have been supported.
  54,930 Chaff Cutter has been distributed.
  96,321 Qtls seed has been distributed.
  3823 silage units have been established.
  Organization of 519 Livestock Mela has been supported.
  223 Livestock Farmers Group and 121 Farmers Field School has been established & 8420 Farmers have been covered under exposure visit.
Milestones achieved under the Leadership of Hon’ble Agriculture & Farmers Welfare Minister
  The Risk Management and Insurance as a component of Sub-Mission on Livestock Development of National Livestock Mission (NLM) is implemented in all the District of the Country instead of 300 selected District earlier.
  All animals are now covered such as indigenous/crossbred milch animals, Pack animals (Horse, Donkey, Mules, Camels, Ponies and Cattle Buffaloes male) and other livestock (Goat, Sheep, Pigs, Rabbit, Yak and Mithun instead of only milch animals earlier.
  The benefit of subsidy has been enhanced and is restricted to 5 cattle unit per beneficiary per household, in case of Goat, Sheep, Pigs and Rabbit one cattle unit is equal to 10 animals instead of only 2 milch animals per household earlier.

Index Numbers of Wholesale Price in India (Base: 2011-12=100)

Index Numbers of Wholesale Price in India (Base: 2011-12=100)

Review for the month of June, 2017
The official Wholesale Price Index for ‘All Commodities’ (Base: 2011-12=100) for the month of June, 2017 declined by 0.1 percent to 112.7 (provisional) from 112.8 (provisional) for the previous month.

INFLATION

The annual rate of inflation, based on monthly WPI, stood at 0.90% (provisional) for the month of June, 2017 (over June,2016) as compared to 2.17% (provisional) for the previous month and -0.09% during the corresponding month of the previous year. Build up inflation rate in the financial year so far was -0.44% compared to a build up rate of 3.71% in the corresponding period of the previous year

Inflation for important commodities / commodity groups is indicated in Annex-1 and Annex-II.
The movement of the index for the various commodity groups is summarized below:-

PRIMARY ARTICLES (Weight 22.62%)

The index for this major group rose by 0.3 percent to 126.9 (provisional) from 126.5 (provisional) for the previous month.  The groups and items which showed variations during the month are as follows:-


The index for ‘Food Articles’ group rose by 0.9 percent to 139 (provisional) from 137.7 (provisional) for the previous month due to higher price of fruits & vegetables (6%), fish-marine (2%) and egg, poultry chicken, fish-inland and milk (1% each).  However, the price of betel leaves (46%), peas/chawali (4%), urad, ragi, jowar, moong, masur, gram, arhar, condiments & spices, tea and bajra (3% each) and rajma (2%) and maize and wheat (1% each) declined.

The index for ‘Non-Food Articles’ group declined by 1.7 percent to 117.8 (provisional) from 119.8 (provisional) for the previous month due to lower price of floriculture (17%), guar seed (8%), raw rubber (5%), sunflower (4%), castor seed (3%), groundnut seed, cotton seed, soyabean, coir fibre and gingelly seed (2% each) and linseed and rape & mustard seed (1% each).  However, the price of raw cotton, safflower (kardi seed), niger seed, raw silk and copra (coconut) (1% each) moved up.

The index for ‘Minerals’ group rose by 1.3 percent to 116.3 (provisional) from 114.8 (provisional) for the previous month due to higher price of zinc concentrate (12%), iron ore and lead concentrate (9% each), copper concentrate (2%) and  chromite (1%).  However, the price of manganese ore (21%) declined.

The index for ‘Crude Petroleum & Natural Gas’ group declined by 2.4 percent to 69.4 (provisional) from 71.1 (provisional) for the previous month due to lower price of crude petroleum (3%).

FUEL & POWER (Weight 13.15%)

The index for this major group declined by 1.2 percent to 89.7 (provisional) from 90.8 (provisional) for the previous month. The groups and items which showed variations during the month are as follows:-

The index for ‘Coal’ group rose by 0.8 percent to 117.5 (provisional) from 116.6 (provisional) for the previous month due to higher price of coking coal (2%).

The index for ‘Mineral Oils’ group declined by 2.3 percent to 77.5 (provisional) from 79.3 (provisional) for the previous month due to lower price of LPG (12%), naphtha and ATF (3% each), HSD (2%) and petrol and lube oils (1% each). However, the price of petroleum coke (3%) and furnace oil (2%) moved up.

The index for ‘Electricity’ group declined by 0.7 percent to 102 (provisional) from 102.7 (provisional) for the previous month due to lower price of electricity (1%).

MANUFACTURED PRODUCTS (Weight 64.23%)

The index for this major group declined by 0.1 percent to 112.5 (provisional) from 112.6 (provisional) for the previous month. The groups and items which showed variations during the month are as follows:-

The index for ‘Manufacture of Food Products’ group declined by 0.4 percent to 126.7 (provisional) from 127.2 (provisional) for the previous month due to lower price of groundnut oil (4%), basmati rice (3%), wheat bran, sooji (rawa), salt, wheat flour (atta) and other meats, preserved/processed (2% each) and mustard oil, palm oil, sugar, manufacture of cocoa, chocolate and sugar confectionery, maida, cotton seed oil, rice bran oil, soyabean oil, ghee, manufacture of prepared animal feeds, coffee powder with chicory and powder milk (1% each).  However, the price of honey and processed tea (7% each), instant coffee (4%), manufacture of macaroni, noodles, couscous and similar farinaceous products (3%), gur, rice products, buffalo meat (fresh/frozen), gram powder (besan) and rapeseed oil (2% each) and processing & preserving of fish, crustaceans & molluscs & products thereof, spices (including mixed spices), condensed milk, manufacture of bakery products, manufacture of processed ready to eat food and processing & preserving of fruit & vegetables (1% each) moved up.

The index for ‘Manufacture of Beverages’ group rose by 0.1 percent to 117.6 (provisional) from 117.5 (provisional) for the previous month due to higher price of bottled mineral water (1%).

The index for ‘Manufacture of Tobacco Products’ group rose by 1 percent to 144.3 (provisional) from 142.9 (provisional) for the previous month due to higher price of other tobacco products and biri (2% each).  However, the price of cigarette (1%) declined.

The index for ‘Manufacture of Textiles’ group rose by 0.1 percent to 113.7 (provisional) from 113.6 (provisional) for the previous month due to higher price of ortla yarn, viscose yarn and weaving & finishing of textiles (1% each).   However, the price of manufacture of other textiles (1%) declined.

The index for ‘Manufacture of Wearing Apparel’ group declined by 0.2 percent to 133.2 (provisional) from 133.5 (provisional) for the previous month due to lower price of manufacture of wearing apparel (woven), except fur apparel (1%).   However, the price of manufacture of knitted & crocheted apparel (1%) moved up.

The index for ‘Manufacture of Leather and Related Products’ group rose by 0.3 percent to 119.9 (provisional) from 119.5 (provisional) for the previous month due to higher price of belt & other articles of leather (3%), chrome tanned leather (2%), travel goods, handbags, office bags, etc. and waterproof footwear (1% each).   However, the price of vegetable tanned leather and leather shoe (1% each) declined.

The index for ‘Manufacture of Wood and of Products of Wood and Cork ‘ group declined by 0.1 percent to 130.5 (provisional) from 130.6 (provisional) for the previous month due to lower price of wooden board (non-electrical) (2%) and wood cutting, processed/sized, particle boards, wooden box/crate and timber/wooden plank, sawn/resawn (1% each). However, the price of plywood block boards (1%) moved up.

The index for ‘Manufacture of Paper and Paper Products’ group declined by 0.6 percent to 115.7 (provisional) from 116.4 (provisional) for the previous month due to lower price of corrugated sheet box (4%) and card board, laminated plastic sheet and map litho paper (1% each).  However, the price of base paper (4%) and kraft paper (1%) moved up.

The index for ‘Printing and Reproduction of Recorded Media ‘ group rose by 0.5 percent to 142.4 (provisional) from 141.7 (provisional) for the previous month due to higher price of sticker plastic (4%) and journal/periodical (2%). However, the price of printed labels/posters/calendars (1%) declined.

The index for ‘Manufacture of Chemicals and Chemical Products’ group declined by 0.1 percent to 111.6 (provisional) from 111.7 (provisional) for the previous month due to lower price of phthalic anhydride (7%), ammonium sulphate (5%), mono ethyl glycol, poly propylene (pp), ammonium nitrate, xlpe compound and shampoo (4% each), polystyrene, expandable, oleoresin and polyester chips or polyethylene ortlandlate (pet) chips (2% each) and fatty acid, aromatic chemicals, liquid air & other gaseous products, nitric acid, dye stuff/dyes incl. dye intermediates and pigments/colours, ethylene oxide, polyethylene, alkyl benzene, aniline (including pna, ona, ocpna), adhesive tape (non-medicinal), varnish (all types) and ammonium phosphate (1% each).  However, the price of ammonia liquid and organic chemicals (4% each), foundry chemical, organic surface active agent and caustic soda (sodium hydroxide) (3% each), camphor, ortlan, adhesive excluding gum and paint (2% each) and carbon black, additive, insecticide and pesticide, printing ink, polyester fibre fabric, toilet soap, powder coating material, sodium silicate, safety matches (match box), polyester film(metalized), acetic acid and its derivatives, amine, sulphuric acid, other inorganic chemicals, tooth paste/tooth powder and rubber chemicals (1% each) moved up.

The index for ‘Manufacture of Pharmaceuticals, Medicinal Chemical and Botanical Products’ group declined by 0.5 percent to 120.2 (provisional) from 120.8 (provisional) for the previous month due to lower price of sulpha drugs (7%), antibiotics & preparations thereof (2%) and anti-retroviral drugs for HIV treatment, vials/ampoule, glass (empty or filled), anti allergic drugs and plastic capsules (1% each).  However, the price of antioxidants and cotton wool (medicinal) (2% each) and digestive enzymes and antacids, anti-malarial drugs and anti cancer drugs (1% each) moved up.

The index for ‘Manufacture of Rubber and Plastics Products’ group declined by 0.1 percent to 108.5 (provisional) from 108.6 (provisional) for the previous month due to lower price of polyester film (non-metalized) (5%), rubber crumb (4%), pvc fittings & other accessories and rubber tread (3% each), medium & heavy commercial vehicle tyre and 2/3 wheeler tyre (2% each) and rubber moulded goods, polypropylene film, plastic film, plastic box/container, plastic tube (flexible/non-flexible), acrylic/plastic sheet and motor car tyre (1% each).  However, the price of plastic components (6%), conveyer belt (fibre based) (3%), rubber cloth/sheet, cycle/cycle rickshaw tyre and plastic tank (2% each) and thermocol and rubber components & parts (1% each) moved up.

The index for ‘Manufacture of Other Non-Metallic Mineral Products’ group rose by 0.8 percent to 112.3 (provisional) from 111.4 (provisional) for the previous month due to higher price of slag cement and graphite rod (3% each), marble slab, pozzolana cement and porcelain sanitary ware (2% each) and clinker, ordinary ortland cement, granite, cement blocks (concrete), toughened glass and lime and calcium carbonate (1% each).  However, the price of cement superfine, non ceramic tiles and plain bricks (1% each) declined.

The index for ‘Manufacture of Basic Metals’ group declined by 0.1 percent to 96.7 (provisional) from 96.8 (provisional) for the previous month due to lower price of ferrochrome (5%), ms slabs (4%), silicomanganese (3%), brass metal/sheet/coils and aluminium disk and circles (2% each) and mild steel (ms) blooms, copper shapes-bars/rods/plates/strips, alloy steel wire rods, ms bright bars, cold rolled (CR) coils & sheets, including narrow strip, gp/gc sheet, aluminium alloys, ms pencil ingots and ms wire rods (1% each).   However, the price of ferromanganese (6%), stainless steel pencil ingots/billets/slabs and zinc metal/zinc blocks (4% each), sponge iron/direct reduced iron (DRI) and alloy steel castings (3% each), stainless steel bars & rods, including flats and other ferro alloys (2% each) and cast iron, castings, aluminium castings, ms castings, stainless steel tubes and copper metal/copper rings (1% each) moved up.

The index for ‘Manufacture of Fabricated Metal Products, Except Machinery and Equipment’ group declined by 0.1 percent to 108 (provisional) from 108.1 (provisional) for the previous month due to lower price of stainless steel utensils (3%), cylinders and steel drums and barrels (2% each) and steel container and forged steel rings (1% each). However, the price of hand tools (4%) and bolts, screws, nuts & nails of iron & steel, iron/steel cap and steel structures (1% each) moved up.

The index for ‘Manufacture of Computer, Electronic and Optical Products’ group declined by 0.5 percent to 108.5 (provisional) from 109.1 (provisional) for the previous month due to lower price of ups in solid state drives and colour tv (4% each), watch and electro-diagnostic apparatus, used in medical, surgical, dental or veterinary sciences (2% each) and capacitors (1%).   However, the price of meter (non-electrical) and air conditioner (3% each) and electronic printed circuit board (pcb)/micro circuit (1%) moved up.

The index for ‘Manufacture of Machinery and Equipment’ group declined by 0.5 percent to 107.8 (provisional) from 108.3 (provisional) for the previous month due to lower price of pressure vessel and tank for fermentation & other food processing (12%), excavator, cranes and solar power system (solar panel & attachable equipment) (5% each), rice mill machinery and moulding machine (3% each), roller and ball bearings, manufacture of bearings, gears, gearing & driving elements and printing machinery (2% each) and industrial valve, agriculture implements, drilling machine and chemical equipment & system (1% each).  However, the price of precision machinery equipment/form tools (3%), pharmaceutical machinery and road roller (2% each) and pump sets without motor, air gas compressor including compressor for refrigerator, clutches and shaft couplings, injection pump, open end spinning machinery and sewing machines (1% each) moved up.




The index for ‘Manufacture of Motor Vehicles, Trailers and Semi-Trailers’ group rose by 0.3 percent to 111.6 (provisional) from 111.3 (provisional) for the previous month due to higher price of chain, minibus/bus and chassis of different vehicle types (2% each) and silencer & damper and wheels/wheels & parts (1% each).  However, the price of head lamp (3%) and shafts of all kinds, crankshaft, brake pad/brake liner/brake block/brake rubber, others and cylinder liners (1% each) declined.

The index for ‘Manufacture of Other Transport Equipment’ group rose by 0.6 percent to 109.7 (provisional) from 109 (provisional) for the previous month due to higher price of motor cycles (1%).

The index for ‘Manufacture of Furniture’ group rose by 1.8 percent to 116.2 (provisional) from 114.2 (provisional) for the previous month due to higher price of foam and rubber mattress (8%) and iron/steel furniture (2%). However, the price of steel shutter gate (1%) declined.

The index for ‘Other Manufacturing’ group declined by 3.8 percent to 110.3 (provisional) from 114.6 (provisional) for the previous month due to lower price of gold & gold ornaments (5%).  However, the price of intraocular lens (6%) moved up.

WPI FOOD INDEX (Weight 24.38%)

The rate of inflation based on WPI Food Index consisting of ‘Food Articles’ from Primary Articles group and ‘Food Product’ from Manufactured Products group decreased from 0.15% in May, 2017 to -1.25% in June, 2017.

FINAL INDEX FOR THE MONTH OF APRIL, 2017 (BASE YEAR: 2011-12=100)

For the month of April, 2017, the final Wholesale Price Index for ‘All Commodities’ (Base: 2011-12=100) and annual rate of inflation remained unchanged at its provisional level of 113.2 and 3.85 percent respectively as reported on 12.05.2017.

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