Followers

Monday, June 12, 2017

Niyyat In Islam Is About Purity Of Intentions


Alim extended his arm and handed me a rainbow-coloured juggling ball and said that it was a present for me. As he uttered these words, he smiled and his eyes glimmered, perhaps reflecting what he was feeling in his heart. I met Alim in one of the teaching centres of an NGO where i worked. Alim is only 14 years old and lives on the pavements of New Delhi. He works in a toy factory where he had made that ball.There are some moments or situations in life that are unexpected, but they manage to change your perspective rather mysteriously . These moments might seem unimportant and they may last only for a second but they move you in such an astounding way that you start questioning a lot of things. This, surely , was one of those moments.
When Alim gave me that present, i realised that it was given selflessly . The authenticity of his emotion made that small juggling ball priceless and that glimmer was only because there was no ulterior motive. I had never felt this unquestionable emotion of sincerity while receiving a gift. Alim's inner light shone forth, reflecting Allah. Alim's `niyyat' was `saaf ', pure.
Niyyat refers to intention behind action, the word which i see myself and many others using often, but mostly with negative connotations. In the Quran, it acquires a meaning which leads to a spiritual bond with the Almighty .
Niyyat comes from the word `niyyah' which, in Islam, is the criterion of value in every act, including worship, and it is the first obligatory act in prayer. Niyyat, in fact, is the soul of ibadat (devotion and prayer).
Intention is considered the pillar of worship. Devotional acts without purity of intentions, cannot take one closer to God. The most sacred acts are spoiled because of calculated objectives behind them, while the simplest actions gain value because they hold an essence of honesty and purity . While walking on the streets of New Delhi, i never fail to notice the contradictions. I see garbage cans, park benches, bricks, floorings, water dis pensers ­ all donated for public use in streets with names inscribed on them just so that people know who contributed what. On on the other hand, i see beautiful graffiti on walls made anonymously , bringing colour and life to dull paths.g benevolent, unselfish acts releases one from a state of indifference.In addition to the divine reward implied, these acts are for posterity. During festivals i see people buying luxury gifts for their business colleague or for their wealthy friends only because they expect something in return. I feel it is not only about givers; it is also about receivers. Often, during marriages and festivals, you can see people cribbing and evaluating the gifts received and making sure they return the same value in the gifts they would have to give in future.
Materialistic society has conditioned us in such a way that we have started to put a price tag on emotions. We tend to not see beyond the cost, brand and consumer value of a gift that we receive. We have forgotten to appreciate compassionate behaviour, howsoever small, but which is given with warmth and love. We might not be able to know everybody's niyyat, but Allah would know. As mentioned in the Quran, “Your actions will be judged by your intentions.“

Wednesday, June 07, 2017

What greater crisis do you want in our agriculture?, asks Deepak Pental


The geneticist and former Delhi University V-C explains why India must shed its knee-jerk opposition to GM crops

Deepak Pental is Professor of Genetics at the University of Delhi. A former vice-chancellor, he’s at the centre of a scientific storm over transgenic mustard, the first such food crop that’s been cleared by the Environment Ministry’s technical committee for release into the fields. Dr. Pental’s group has used two genes from soil bacterium (Bacillus amyloliquefaciens), called barnase and barstar, that make mustard, a self-pollinating plant, amenable to hybridisation. Hybrid plants are generally considered higher yielding than pure, native parental cultivars. Activists opposed to GM technology, however, allege that Dr. Pental’s claims on yield are inflated, and that along with barnase and barstar he employs another gene, called bar, that make the mustard herbicide-tolerant, locking farmers into certain brands of weedicides. In a wide-ranging conversation, Dr. Pental explained why such allegations are baseless and why GM technology is vital to the future of Indian agriculture. Excerpts:

You have been working on the genetic transformation of mustard for many years now and had already developed a way to make mustard hybrids without using foreign genes in 2002. Why have a new transgenic technology now?

That was DMH-1 (Dhara Mustard Hybrid-1), the only hybrid released by the Indian Council for Agricultural Research (ICAR) after extensive field trials. That employed a different technique, called cytoplasmic male sterility (CMS). It’s effective but large-scale seed production isn’t possible in this system. It has problems with stability and cannot be used in many mustard lines. If we need hybrid seeds of high purity and improved production, we need a robust pollination control mechanism. A flower has male and female parts. [Mustard self pollinates] and so to make hybrids using different parental lines you need to first make the male plant sterile and in the other parent, you need to put something to restore it, so that the farmer gets fully-fertile seeds. The other aspect is how good the parental lines are. [The controversy over GM mustard] is that we are confusing the two. With the barnase-barstar system (BB system) we can keep on making newer hybrids for traits such as disease resistance and productivity, but the system is basic. Without a good system you can’t have a good hybrid seed production. We started with the observation that combining Indian and East European hybrids are more productive.

What is the difference between a CMS system and a bar-barnase-barstar system?

CMS system is a mutation that occurs naturally in plants or can be induced. It is in the mitochondria (the part of the cell that provides energy) and changes in it can induce sterility. During reproduction the plant needs more energy and the mitochondria (in CMS mutants) tends to fail, during that critical period, in the male part. However for a viable seed generation system this should only work for male sterility, and not affect other parts of the plant. Such mutants are very rare but typically they tend to have side-effects. CMS systems have been worked upon in cotton, chickpea and rice but have had mixed results. China has wonderfully exploited the CMS system for rice but that rice could never grow properly in India. I spent many years (as a scientist at The Energy Resources Institute) trying to improve CMS systems and DMH-1 was a result of that. Sometimes it wasn’t possible to restore the plant’s fecundity; sometimes it would make plants more susceptible to fungus. Finding a perfect CMS is a back breaking job and isn’t like going to a shop and buying it off.
So we thought why not try a barnase-barstar (BB) system. Here genes from soil bacterium (or ‘trans genes’ that don’t naturally occur in a species) are used to induce sterility, and later restore it.

Why is a CMS system more sought after than a BB system?

Because it doesn’t involve trans-genes. For some reason mutations (within a plant), when you don’t know which genes are affected, are considered kosher. But were you to (manually) introduce a gene, even if it’s from a natural plant source, it invites suspicion. That is the mindset under which we are working. The BB system is extremely well understood. It is one of the most brilliant pieces of R&D in plant biotechnology. We thought we should adopt it for our purposes. We know that combining particular cultivars (Indian with East European ones) could give high yielding seeds, we have a method for transforming these genes, and we knew that these genes aren’t patented in India. Our aim was that farmers should benefit from this approach. We have over the years improved this basic science and got European and American patents on aspects such as improving the male sterile lines, restoring them, etc. The patents were not for selling but just to see if the world recognises this technology upgradation. And it has. The basis of this idea has been used to improve European rapeseed and now we have upgraded it to work on mustard.

But groups say that there are already mustard lines that outyield DMH-11?

Complete lies. Why don’t they give a graph? Publish a peer-reviewed paper? All work done in ICAR is recorded and reported, and if it’s good enough, published in peer-reviewed journals. The first trials of DMH-11 were done in 2010. That time Varuna (one of its parental lines) was the national check (a standard practice in India’s agriculture system whereby certain cultivars are designated regional benchmarks). Later on, a variety called Kranti was discovered to yield more, and became the national check. We had started with Varuna and so stuck with it. The suggestion to use Varuna came from the ICAR system itself. To get an understanding of a seed’s yield from independent trials you must compare their trends, or their year-on-year profile. What we have to see is whether the hybrids are consistently yielding more than their parents. Like, for instance, is DMH-11 yielding more than Varuna? DMH-11 has the same male parent as DMH-1 (an East-European line called EH2). Only the female parent is different. DMH-11 uses transgenic technology, DMH-1 uses CMS, and for DMH-11 we used Varuna as the female. The fundamental insight is that you will get heterosis (or high-yielding hybrids) only if you cross an East European line with an Indian pure (cultivar) line. Indian-Indian crossings won’t have that effect irrespective of what technology you use.

DMH-1, that you made in 2002 and made with non-transgenic methods, out-yielded the Kranti and Varuna benchmarks. So why can’t we stick with it?

As scientists, we know DMH-1 won’t go far. Eventually [over generations] sterility breaks down, hybrid seed production is difficult. DMH-11 (that uses transgenic technology) is better to help us have a system to march forward (while producing different varieties of mustard). If people fail to understand this logic, there is nothing much I can do. Activists have gone to such a crude extent of combining the data of different, incomparable trials. That’s not done and is like the earlier instance of comparing the yield of Canadian rapeseed variety with the European ones. Both Europeans and Canadians have done wonderful breeding in rapeseed. We are the ones lagging behind. That somehow doesn’t seem to concern critics.

But are the yields of the European lines higher than our Indian mustard varieties?

They are. Indian mustard [which is in the same taxonomic family as rapeseed] is a 135-day winter crop and grown in a completely different ecology. If you grow European rapeseed here, you will get nothing. Rapeseed has a very narrow genetic base but, as far as mustard goes, we are fortunate to have a wide variety of cultivars. East European, Chinese… in fact [in our lab] we have crossed the Indian and Chinese types and it’s given us new variations that are mind-boggling. But before we utilise it and make new hybrids, there is no point in my claiming them to be wonders. We need to get at this small wonder (DMH-11) first. In general, DMH-11 generally yields 20%-30% more than its parents. Hybrids are more productive than their pure-line parents. That’s what really matters and that’s all that we claim. BB systems are stable and CMS-based systems are a scientific dead-end.

But all the European rapeseeds are based on CMS systems. Is it a global, scientific consensus that an excellent CMS system is better than a stable BB system?

The European hybrids have been developed over 30 years and they have perfected it. Moreover, it’s a choice that Europe has decided not to grow transgenics. It may be a political decision based on public sentiment. Europe is a huge importer of food. Europe doesn’t follow organic agriculture but precision agriculture. They prescribe around 10 different herbicide-combinations that farmers need to spray for those high yields [in rapeseed]. Europe excels in agrochemicals… Bayer, Syngenta, BASF are the top companies in chemistry and making molecules for pesticides, fungicides. They have chosen that path.

Are transgenic seed systems avoidable?

My point is simple. What exactly bothers critics of genetic engineering? Is it because it appears unnatural? Is it because someone is paying you to campaign against it or, is it because you believe agriculture ought to be done the way it was before the 1900s? Before nitrogenous fertilisers all agriculture was organic. This mindset bothers me a lot because it’s misleading and irrational. Every country ought follow its own, rational path. Europe doesn’t need transgenics because they don’t want to increase their area for cultivation. They don’t want to export food. They don’t have 48% of their population dependent on farming. There is, for instance, no organic cultivation in Germany. Are any of their prescribed herbicidal chemicals any less toxic? They are not desperate but India has to be because our yields are stagnating, farm incomes are not growing and we are importing ₹65,000 crore worth of edible oil.

Several European agrochemical companies have bought American seed companies. Bayer’s recent acquisition of Monsanto, for instance.

Very audacious move. China has bought Syngenta, and in one go, they have all of Syngenta’s germplasm as well as agrochemical expertise. China, like India, has been making agriculture-chemicals through generics. New molecule discovery doesn’t exist in India. We don’t want to find new, more benign agrochemicals, we don’t want genetic engineering and we slam our plant breeders. So what exactly is Indian agriculture aiming for?

Why does your plant have a third gene ‘bar’ that’s known to promote herbicide tolerance?

It’s not designed for that. That gene is required to mark out the seeds that have all the desired characteristics after the hybrid crosses are done. This is done at the lab level and doesn’t need to be sprayed by farmers in the field.

Do you think there is a false opposition between GM seeds and organic agriculture, given that the aims of both are to use minimal, chemical pesticide?

Absolutely. There’s a vested interest though I don’t know whose. Take DMH-11. It yields 25% more than the best varieties. If you want to grow it using organic practices, go ahead. There’s nothing inherently contradictory but then you must also evaluate the yields of plants grown this way. There are barely 0.6 million hectares of organic agriculture in the world. Europe might use fungicides for its own purposes but tells India, “Give us organic tea and coffee. We’ll pay you a little more money.” But they wouldn’t themselves grow anything organic. In 2010, according to the Food and Agricultural Organisation, Germany had 11.8 million ha under crops, India had 165.5 million ha, though that may be a slight underestimate. Now look at the insecticide use: Germany [uses] about 1,243.79 tonnes and India about 20,000 tonnes. Fungicides: Germany 9,670 tonnes, India 13,000 tonnes. But Germany’s per-unit consumption of the latter dwarfs India’s.

Can mindsets be easily changed? Many believe that Europe pays a premium for organic food and Indian farmers would do well cultivating it?

And in the process starve our own children? Organic farming is flawed because it’s low-yielding and may not be a problem for us urban folk but will massively hurt our average farmer. If our government says no to technology, it will be a disastrous decision and history will not forgive us for it.

GM Mustard is now in a similar situation to what Bt Brinjal was, about a decade ago. It’s been cleared by scientific groups but awaits a nod from the Environment Minister. Are you worried mustard may go the Bt Brinjal way?

I didn’t closely follow what was happening then. But the fact is that it was a good material and brinjal requires several toxic sprays. I believe it should’ve been taken through. However, every development has its own context, positives and negatives. In mustard, we’ve taken it slow. I don’t see what the environmental problem is anyway. The mustard oil doesn’t contain any protein. The barnase and barstar genes don’t express in the seed, only the bar gene does, to some extent but it poses no threat. There are, naturally, 80,000 proteins in mustard. Some expressed in abnormal quantities may be toxic but we don’t need to go as far as that. There are recommended tests and we’ve done them. That should be the end of it. I do get the sense that higher political class is committed to research and innovation. So let’s see.

There’s another concern. That once GM mustard is cleared it will open the way for other GM seeds that are protected by patents of multinational seed companies. The Indian farmer will thus be beholden to MNCs.

This is the most defeatist attitude one can have. These were the arguments during the Green Revolution, that we are opening the door to international fertiliser companies but we have subsequently built our own fertiliser companies. We have 102 agricultural institutes, 76 agricultural universities. Why have you created them? Shut them down, or recharge some of them and back the good horses.
We have been able to do our mustard work because we were backed by the National Dairy Development Board and the Department of Biotechnology. This, in spite of being based in a liberal university. That shows you the possibilities. When people say that GM seeds could breed monopolies, what is your response? Fight them or keep your farmers stuck to low-yielding varieties and have them importing [oil]. Either way, your money is going to go… What greater crisis do you want in our agriculture? Yields are stagnant, climate change will give you more insect attacks, and we are importing crores worth of edible oil. How will you go about doubling farmers’ income? And all we talk about is GM, GM, GM.

Why do you think transgenic technology evokes such apprehension?

There is certainly a fear. We understand technology as long as it deals with objects of pleasure such as cellphones and cars. We understand health tech but don’t always understand the extent of scientific work underlying it. However, the knowledge of how the world feeds itself is, somehow, extremely limited. Else these paranoid questions wouldn’t be asked. Just as people have health problems, crops have diseases and manipulating genes is necessary to address them.

You say that your BB system is a platform technology and not, on its own, responsible for increasing yields. How do you explain that to farmers?

These mustard plants we have made will spread in no time. Farmers don’t care about underlying technology, and historically it’s seen that hybrids have always done well. I don’t see this as being any different. However, it will do best in ecologies where it has been tested. There may be differences in output in Rajasthan and Bihar. There is no question of blindly promoting DMH-11 all over the country. Right now we hope to release it in parts of Punjab, Haryana, Rajasthan. We are sure it will do very well in these climates.

Wouldn’t farmers in the east, in Bihar and Jharkhand, hear about DMH-11 and want it for their farms?

They would need different hybrids. Varieties are suited for different climates and disseminating proper information about these aspects is where management comes into play. That is where agricultural extension and honesty is required. With dishonesty, anything will crash. The only thing with science and technology is you can’t b******* for too long and you will be found out.
Source: The Hindu, 7-06-2017

Apply, apply till you succeed


When applying for a PhD, consider writing to a professor/faculty member whose interests seem to match with yours to seek their suggestions on your fit at the school

Picking a college

I am a second year PhD student of a four-year course in City and Regional Planning, School of Design, at the University of Pennsylvania (UPenn). I had applied to several colleges including Massachusetts Institute of Technology (MIT), University of California Berkeley (UC Berkeley),
Columbia University, and Washington University. I got through the University of Pennsylvania in my second attempt in applying to schools in the US. The good faculty, international focus, and the great resources available to students are what made me choose UPenn; I have a four year fellowship.

Before you apply

I applied in 2012 (for 2013 academic session), but didn’t get through, and then tried again in 2014 (for 2015 academic session). It’s a fairly long process, starting with GRE and TOEFL exams, followed by getting together all the administrative documents required for every application, which includes multiple recommendations, transcripts, bank statements and a whole lot more. The personal statement and statement of purpose also require a fair amount of work. While some schools only need a statement of purpose, others require a personal statement as well as a statement of purpose. Since I was applying for the second time, it was easier, because I had most of my documents ready. However, each university has its own requirements and application procedures, and I had to follow them for each of the universities I was applying to (in 2014, I applied to around five schools).

Preparation tips

Start early! Cumulative efforts towards the application process leave you feeling considerably less stressed than rushing it in the last 1-2 months. Collect your documents and other requirements in advance from your Indian college/university. Give your professors a comfortable time period to send in their recommendation. This can be pretty stressful, as professors have their own schedule, and there is only so much you can demand from them. It’s best to let them know in advance how many recommendations you need, the expectations you have of them, and your deadline for submissions. Spend some time checking the university website and faculty lists to find what matches with your interests. Application portals also provide samples for the personal statement and statements of purpose; go through them, write your own, then revise, and revise again.
When applying for a PhD, consider writing to a professor/faculty member whose interests seem to match with yours to seek their suggestions on your fit at the school. In my experience, most of them reply, either positively or not so positively about prospects at a particular school. Either way, it does provide clarity over application decisions.

Benefits of an Ivy League environment

The greatest benefit would be the access to the vast range of literature available at the school, as well as the environment, which allows for collaboration between various fields that interest the student.
Sirus Libeiro
Second year Ph.D student, University of Pennsylvania
(If you are an alumnus of, or a current student at an Ivy League, and would like to share your story, write to avril.braganza@dnaindia.net, rama.ramanan@dnaindia.net.)
Source: DNA, 7-06-2017
True & Noble Convictions Lead To Selfless Service


Actions are the louder expressions of thought. The quality of thought is ordered by the nature of our inner `belief ' and `faith'. Where faith is shaky , thoughts are vague, and actions weak and purposeless ­ indecisive and timid. If our service to the world is to be effective and productive of sure results, then our head and heart must be inspired by our own `convictions'.We have faith, but not firm conviction. We have certainty but not self-resurrecting belief. Those dynamic convictions that drive us to spectacular actions and blazing results cannot be had by accident. They are not built-in resources in any individual. We have to discover and cultivate them in ourselves, by our own study and planned self-education. Vedanta unfolds this in all its students. Penetrating study into the depths of the Upanishads, understanding of the way-of-life mapped out by Krishna in his scientific and logical discourses in the Gita, do transform the thought-pattern in the student and he discovers for himself a new purpose and a clearer vision of the goal of his life. He grows first in his faith in himself, and then he discovers certain definite convictions maturing within him. Through earnest study and subjective investigations of these ideas in one's own mind, through “deep reflection“, one can discover new horizons to one's life. Only with this inner expansion of vision shall we realise the opening of some secret chambers of power and strength in ourselves, and with an irresistible gush of intelligent determination and will, apply ourselves in action in the world around. If the convictions are true and noble ­ “Buddha-like“ ­ then service to man springs forth, bringing blessings of compassion and friendship, love and peace to all. If the convictions are false and ignoble ­ “demon-like“ ­ that service to people rattles out, blasting the world with the curses of hate and war, death and destruction.
Such an intellectual sense of conviction must now slowly mature to become our belief.
By themselves, convictions may not stand the onslaught of the rough life or its plethora of stormy outbursts. When in our life happenings are unfavourable, at a time when we need our belief the most, we may find ourselves empty , , sans conviction, sans belief. In cheated, sans conviction, sans belief. In this inner poverty , the intellect stops in fatigue, the heart turns dry .
If convictions are acquired through study and if they can become our belief through reflection, then, belief can fructify to become a “way-of-life“. Only through meditation practised mindfully to keep us constantly in touch with our belief, and bringing it out as the expression of all our actions, feelings and thoughts, shall we grow mightily in our belief. It will then come to waft its fragrance all around us, adding a new attractiveness in all our actions. If this is practised for some length of time with deep sincerity , firm determination and zealous regularity , the positive pitch of our total life will resound in harmony with the true notes of our belief. Such an individual can never again ever miss his spiritual glow even in the most trying moments of stress and strain.
Let us, through study , reflection and meditation, grow from conviction to belief and ultimately earn our Perfect Way-of-Life. (The writer is founder, Chinmaya Mission.)
True Grit: A special girl shows what strength of character is
Agra:


Defies 80% Hearing Impairment To Shine In UPSC, 2nd Yr In A Row
Twenty-six-year-old Vaishali Sharma, an MBBS from Aligarh Muslim University, cannot hear much. But she has trained herself to lipread. Even though she suffers from 80% hearing impairment, it has not stopped her from realising her dreams.With 824 marks (out of 2,025) in last year's civil services examination, Vaishali ranked second in the physical disability category-3 but wasn't selected because examiners found her to be “temporarily unfit“ as she was overweight. Candidates need to pass a medical examination, where their BMI is also measured among other things.
Instead of tears, Vaishali decided to shed pounds and appeared in the exam again.This year, she has scored 969 marks (47%), topping the exam in the same category .
Of the 1,209 candidates who cleared UPSC this time, 44 are in the physically challenged category . Among these 44, 15 are hearing impaired, seven visually impaired and 22 suffer from locomotor disability and cerebral palsy .
Vaishali said she was heartbroken when she wasn't recruited despite losing some weight in 2016 and getting herself certified by the government's health department. Her family had wanted to move court to seek justice for her, but she was determined to prove her point “in another way“. “Though I was shocked by what had happened then, I never gave up and was sure that I would succeed again,“ she told TOI.
Vaishali said though she has been using hearing aids, it's not easy as these devices only amplify the sound and do not process the words. She also could not pursue her PG in clinical branches because of difficulty in using stethoscope and not responding to emergency phone calls.
She couldn't even attend coaching classes for her preparation for UPSC as she found understanding words in a group very difficult. “I spent long hours in the AMU li brary studying by myself.“
“I started lip reading and also observed people keenly to understand their body language and expressions,“ she said, adding that during interviews she focused on the interviewers' lips to understand what was being said. This year, she managed to score 170 marks out of 275 in the interview.
Vaishali, who had recently started working at a Mathura hospital as a junior resident, said she felt “low and frustrated“ in her childhood as she found herself “different“ from others. “ My family supported me. Whatever I have achieved today is due to their support.“
Vaishali's father is a former banker who took early retirement to focus on the career of his two daughters and a son, all of whom are medical practitioners.
Source: Times of India, 7-06-2017

Why CSIR and other science labs should be given more funds, not less

The cutting of funds to research labs, such as those under the CSIR, will make it harder for researchers to continue to work in the country

The Council of Scientific and Industrial Research (CSIR) is among the country’s largest research and development organisations. This year a letter from the director general has informed all of its 38 that they will have to generate their own funds to keep the labs running. This has been the trend since 2015, when as part of the Dehradun Declaration, the CSIR decided that about 50% of its budget would have to be raised from external sources. This, coupled with the 7th pay commission requirements, has left the CSIR with only Rs.360 crore instead of the usual Rs.1,400 crore annual budget for research labs this year. All indications are that this fund crunch is expected to continue in the years to come.
Higher science in India is already a very under nourished area. In many colleges and universities, even basic equipment and materials are hard to come by. The state of labs in premier universities for masters and doctoral scholars leaves much to be desired. At a time when countries such as China and South Korea are increasing the funding allocated to cutting edge research in science, India’s cutting the budget will make it that much harder to compete in an international stage. This puts additional pressure on CSIR-funded research labs to raise funding from the industry. The pressure to conduct research in only those areas which are profitable and can be sold to the industry will make it harder for scientists to focus on areas of fundamental research in core sciences that may or may not have profitable applications.
In attempting to make academic research more industry-friendly, the government and CSIR must not lose track of the ultimate aim of research which is to push the boundaries of human understanding and scientific knowledge. Fund cuts to higher education, be it in the sciences or in the liberal arts and humanities, will only make it harder for researchers to continue to work in the country. Many scholars will look to other countries with better funding to migrate to. In order to prevent such a brain drain, there needs to be more investment in research, not less. Countries such as China have special incentives for researchers who wish to return to their country to pursue research. India must also strive to provide a conducive environment for advanced research.
Source: Hindustan Times, 7-06-2017

UGC, AICTE to be history soon; govt to bring new higher education regulator

UGC and AICTE are soon going to be a thing of the past with the government planning to replace them with a single higher education regulator.

The University Grants Commission (UGC) and All India Council of Technical Education (AICTE) are soon going to be a thing of the past with the government planning to replace them with a single higher education regulator.
The proposed Higher Education Empowerment Regulation Agency (HEERA) is aimed at eliminating overlaps in jurisdiction and remove irrelevant regulatory provisions.
The HRD ministry is working with Niti Aayog on the plan of bringing technical as well as non-technical institutions under the same umbrella.
According to sources, a detailed blueprint of the proposed regulator and its legislation is being worked upon.
“Both Niti Aayog and HRD ministry officials are working on the plan. It was felt that multiple regulatory bodies led to excessive and restrictive regulation and hence contributed to lack of institutional autonomy,” a source said.
However, the plan to have a single higher education regulator is not a new one but has been recommended by various committees set up by the government.
Source: Hindustan Times, 6-06-2017