Category Archives: GENERAL

President of India to visit Andhra Pradesh on September 1 to 2, 2017

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The President of India, Shri Ram Nath Kovind will visit Andhra Pradesh on September 1 and 2, 2017.

On September 1, 2017, the President will inaugurate the new hospital building of the Sri Venkateswara Institute of Medical Sciences (SVIMS) – Sri Padmavathi Medical College for Women. On the same day, he will also attend a civic reception and public meeting at Sri Venkateswara Arts College Ground, Tirupati.

On September 2, 2017, the President will have a darshan of Sri Varaha Swamy Varu, Tirumala, before returning to Delhi.

GST Revenue Figures – July 2017

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The Goods and Services Tax (GST) tax was introduced on 1st of July, 2017. The last date for payment of GST for the month of July 2017 was 25th August, 2017. The last date for filing returns in cases, where the taxpayer wanted to avail transitional credit was 28th August, 2017 and, in all other cases, it was 25th August, 2017.

If we exclude the taxpayers who have registered with the GSTN in August 2017 and the composition dealers, total number of tax payers who were required to file the returns for July 2017 is 59.57 lakhs, of which, as on 29th August, 2017 (10 a.m.), 38.38 lakh returns have been filed, which is 64.42% of the total number of returns, which are to be filed for the month of July 2017.

The total revenue of GST paid under different heads upto 29th August, 2017 (10 a.m) is Rs.92,283 crore. The total CGST revenue is Rs.14,894 crore, SGST revenue is Rs.22,722 crore, IGST revenue is Rs.47,469 crore (of which IGST from imports is Rs.20,964 crore) and Cess is Rs.7,198 crore (of which Rs.599 crore is Compensation Cess from imports).

It may be mentioned that IGST will be allocated between the CGST and the SGST to the extent that the same is used for payment of CGST/SGST. This exercise will be done based on the cross-utilisation report to be received from the GSTN. Exact revenue figures of the Central and the State Governments respectively will be known after this exercise is complete before the end of this month.

Out of total 72.33 lakh taxpayers, 58.53 lakh taxpayers have completely migrated to the GSTN and 13.80 lakh taxpayers are yet to complete their procedural formalities to migrate to the GSTN. The number of new taxpayers who have registered with the GSTN upto 29th August, 2017 (10 a.m.) is 18.83 lakhs.

Visit of Prime Minister to China and Myanmar (September 3-7, 2017)

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At the invitation of the President of People’s Republic of China, Prime Minister Shri Narendra Modi will visit Xiamen in China’s Fujian province during September 3-5, 2017 to attend the 9th BRICS Summit.

Subsequently, Prime Minister will pay a State visit to Myanmar from September 5-7, 2017 at the invitation of H.E. U Htin Kyaw, President of the Republic of the Union of Myanmar. This will be Prime Minister Modi’s first bilateral State visit to Myanmar. During the visit, Prime Minister will hold discussions with State Counsellor Daw Aung San Suu Kyi on matters of mutual interest and also call on President U Htin Kyaw. Apart from his engagements in the capital city of Nay Pyi Taw, he will visit Yangon and Bagan.

Recipe for safer batteries — Just add diamonds

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While lithium-ion batteries, widely used in mobile devices from cell phones to laptops, have one of the longest lifespans of commercial batteries today, they also have been behind a number of recent meltdowns and fires due to short-circuiting in mobile devices. In hopes of preventing more of these hazardous malfunctions researchers at Drexel University have developed a recipe that can turn electrolyte solution — a key component of most batteries — into a safeguard against the chemical process that leads to battery-related disasters.

Yury Gogotsi, PhD, Distinguished University and Bach professor in the College of Engineering, and his research team from the Department of Materials Science and Engineering, recently published their work — entitled “Nanodiamonds Suppress Growth of Lithium Dendrites” — in the journal Nature Communications. In it, they describe a process by which nanodiamonds — tiny diamond particles 10,000 times smaller than the diameter of a hair — curtail the electrochemical deposition, called plating, that can lead to hazardous short-circuiting of lithium ion batteries.

As batteries are used and charged, the electrochemical reaction results in the movement of ions between the two electrodes of a battery, which is the essence of an electrical current. Over time, this repositioning of ions can create tendril-like buildups — almost like stalactites forming inside a cave. These battery buildups, called dendrites, are one of the main causes of lithium battery malfunction. As dendrites form inside the battery over time, they can reach the point where they push through the separator, a porous polymer film that prevents the positively charged part of a battery from touching the negatively charged part. When the separator is breached, a short-circuit can occur, which can also lead to a fire since the electrolyte solution in most lithium-ion batteries is highly flammable.

To avoid dendrite formation and minimize the probability of fire, current battery designs include one electrode made of graphite filled with lithium instead of pure lithium. The use of graphite as the host for lithium prevents the formation of dendrites. But lithium intercalated graphite also stores about 10 times less energy than pure lithium. The breakthrough made by Gogotsi’s team means that a great increase in energy storage is possible because dendrite formation can be eliminated in pure lithium electrodes.

“Battery safety is a key issue for this research,” Gogotsi said. “Small primary batteries in watches use lithium anodes, but they are only discharged once. When you start charging them again and again, dendrites start growing. There may be several safe cycles, but sooner or later a short-circuit will happen. We want to eliminate or, at least, minimize that possibility.”

Gogotsi and his collaborators from Tsinghua University in Beijing, and Hauzhong University of Science and Technology in Wuhan, China, focused their work on making lithium anodes more stable and lithium plating more uniform so that dendrites won’t grow.

They’re doing this by adding nanodiamonds to the electrolyte solution in a battery. Nanodiamonds have been used in the electroplating industry for some time as a way of making metal coatings more uniform. While they are much, much smaller — and cheaper — than the diamonds you’d find in a jeweler’s case, nanodiamonds still retain the regular structure and shape of their pricey progenitors. When they are deposited, they naturally slide together to form a smooth surface.

The researchers found this property to be exceedingly useful for eliminating dendrite formation. In the paper, they explain that lithium ions can easily attach to nanodiamonds, so when they are plating the electrode they do so in the same orderly manner as the nanodiamond particles to which they’re linked. They report in the paper that mixing nanodiamonds into the electrolyte solution of a lithium ion battery slows dendrite formation to nil through 100 charge-discharge cycles.

If you think about it like a game of Tetris, that pile of mismatched blocks inching perilously close to “game over” is the equivalent of a dendrite. Adding nanodiamonds to the mix is kind of like using a cheat code that slides each new block into the proper place to complete a line and prevent a menacing tower from forming.

Gogotsi notes that his group’s discovery is just the beginning of a process that could eventually see electrolyte additives, like nanodiamonds, widely used to produce safe lithium batteries with a high energy density. Initial results already show stable charge-discharge cycling for as long as 200 hours, which is long enough for use in some industrial or military applications, but not nearly adequate for batteries used in laptops or cell phones. Researchers also need to test a large number of battery cells over a long enough period of time under various physical conditions and temperatures to ensure that dendrites will never grow.

“It’s potentially game-changing, but it is difficult to be 100 percent certain that dendrites will never grow,” Gogotsi said. “We anticipate the first use of our proposed technology will be in less critical applications — not in cell phones or car batteries. To ensure safety, additives to electrolytes, such as nanodiamonds, need to be combined with other precautions, such as using non-flammable electrolytes, safer electrode materials and stronger separators.”

Drones relay RFID signals for inventory control

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Radio frequency ID tags were supposed to revolutionize supply chain management. The dirt-cheap, battery-free tags, which receive power wirelessly from scanners and then broadcast identifying numbers, enable warehouse managers to log inventory much more efficiently than they could by reading box numbers and recording them manually.

But the scale of modern retail operations makes even radio frequency ID (RFID) scanning inefficient. Walmart, for instance, reported that in 2013 it lost $3 billion in revenue because of mismatches between its inventory records and its stock. Even with RFID technology, it can take a single large retail store three months to perform a complete inventory review, which means that mismatches often go undiscovered until exposed by a customer request.

MIT researchers have now developed a system that enables small, safe, aerial drones to read RFID tags from tens of meters away while identifying the tags’ locations with an average error of about 19 centimeters. The researchers envision that the system could be used in large warehouses for both continuous monitoring, to prevent inventory mismatches, and location of individual items, so that employees can rapidly and reliably meet customer requests.

The central challenge in designing the system was that, with the current state of autonomous navigation, the only drones safe enough to fly within close range of humans are small, lightweight drones with plastic rotors, which wouldn’t cause injuries in the event of a collision. But those drones are too small to carry RFID readers with a range of more than a few centimeters.

The researchers met this challenge by using the drones to relay signals emitted by a standard RFID reader. This not only solves the safety problem but also means that drones could be deployed in conjunction with existing RFID inventory systems, without the need for new tags, readers, or reader software.

“Between 2003 and 2011, the U.S. Army lost track of $5.8 billion of supplies among its warehouses,” says Fadel Adib, the Sony Corporation Career Development Assistant Professor of Media Arts and Sciences, whose group at the MIT Media Lab developed the new system. “In 2016, the U.S. National Retail Federation reported that shrinkage — loss of items in retail stores — averaged around $45.2 billion annually. By enabling drones to find and localize items and equipment, this research will provide a fundamental technological advancement for solving these problems.”

The MIT researchers describe their system, dubbed RFly, in a paper they presented this week at the annual conference of the Association for Computing Machinery’s Special Interest Group on Data Communications. Adib is the senior author on the paper, and he’s joined by Yunfei Ma, a postdoc in the Media Lab, and Nicholas Selby, an MIT graduate student in mechanical engineering.

Phase shift

Relaying RFID signals and using them to determine tags’ locations poses some thorny signal-processing problems. One is that, because the RFID tag is powered wirelessly by the reader, the reader and the tag transmit simultaneously at the same frequency. A relay system adds another pair of simultaneous transmissions: two between the relay and the tag and two between the relay and the reader. That’s four simultaneous transmissions at the same frequency, all interfering with each other.

This problem is compounded by the requirement that the system determine the location of the RFID tag. The location-detection — or “localization” — system uses a variation on a device called an antenna array. If several antennas are clustered together, a signal broadcast toward them at an angle will reach each antenna at a slightly different time. That means that the signals detected by the antennas will be slightly out of phase: The troughs and crests of their electromagnetic waves won’t coincide perfectly. From those phase differences, software can deduce the angle of transmission and thus the location of the transmitter.

The drone is too small to carry an array of antennas, but it is continuously moving, so readings it takes at different times are also taken at different locations, simulating the multiple antenna elements of an array.

Ordinarily, to combat interference, the drone would digitally decode the transmission it receives from the tag and re-encode it for transmission to the reader. But in this case, the delays imposed by the decoding-encoding process would change the signals’ relative phases, making it impossible to accurately gauge location.

All radio systems encode information by modulating a base transmission frequency, usually by shifting it slightly up and down. But because an RFID tag has no independent power source, its modulations are detectably smaller than those of the reader. So the MIT researchers devised an analog filter that would subtract the base transmission frequency from the signals that reach the reader and then separate the low-frequency and high-frequency components. The low-frequency component — the signal from the tag — is then added back onto the base frequency.

Frame of reference

At this point, however, another problem still remains. Because the drone is moving, the phase shift of the signals that reach the reader result from not only the drone’s position relative to the RFID tag but also its position relative to the reader. On the basis of the received signal alone, the reader has no way to tell how much each of those two factors contributed to the total phase shift.

So the MIT researchers also equip each of their drones with its own RFID tag. A drone alternates between relaying the reader’s signal to a tagged item and simply letting its own tag reflect the signal back, so that the reader can estimate the drone’s contribution to the total phase shift and remove it.

In experiments in the Media Lab that involved tagged objects, many of which were intentionally hidden to approximate the condition of merchandise heaped in piles on warehouse shelves, the system was able to localize the tags with 19-centimeter accuracy while extending the range of the reader tenfold in all directions, or one hundredfold cumulatively. The researchers are currently conducting a second set of experiments in the warehouse of a major Massachusetts retailer.

High salt intake associated with doubled risk of heart failure

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High salt intake is associated with a doubled risk of heart failure, according to a 12-year study in more than 4 000 people presented today at ESC Congress.1

“High salt (sodium chloride) intake is one of the major causes of high blood pressure and an independent risk factor for coronary heart disease (CHD) and stroke,” said Prof Pekka Jousilahti, research professor at the National Institute for Health and Welfare, Helsinki, Finland. “In addition to CHD and stroke, heart failure is one of the major cardiovascular diseases in Europe and globally but the role of high salt intake in its development is unknown.”

This study assessed the relationship of salt intake and the development of heart failure. Estimation of individual salt intake is methodologically demanding and therefore suitable population-based cohorts are rare. This study used 24 hour sodium extraction, which is considered the gold standard for salt intake estimation at individual level.

This was a prospective follow-up study of 4 630 randomly selected men and women aged 25 to 64 years at baseline who participated in the North Karelia Salt Study and the National FINRISK Study between 1979 and 2002 in Finland. Baseline data collection included a self-administered questionnaire on health behaviour, measurements of weight, height and blood pressure, a venous blood sample for laboratory analysis, and collection of a 24 hour urine sample.

At the study site, nurses measured urine volume and took a 100 ml sample for laboratory analysis. One gram of salt intake was calculated as equal to 17.1 mmol sodium excretion.

The study cohort was followed up for 12 years through computerised register linkage to National Health Records. Cases of incident heart failure were identified from the Causes of Death Register, the Hospital Discharge Register and drug reimbursement records. The association of salt intake in quintiles (<6.8g, 6.8-8.8g, 8.8-10.9g, 10.96-13.7g and >13.7g/day) and the risk of an incident new heart failure event was estimated.

During the follow-up, 121 men and women developed new heart failure. In an age, sex, study year and area adjusted model, hazard ratios in the 2nd, 3rd, 4th and 5th salt intake quintiles, compared to the 1st one, were: 0.83, 1.40, 1.70 and 2.10. After further adjustment for systolic blood pressure, serum total cholesterol level and body mass index the hazard ratios were: 1.13, 1.45, 1.56 and 1.75, respectively.

Prof Jousilahti said: “The heart does not like salt. High salt intake markedly increases the risk of heart failure. This salt-related increase in heart failure risk was independent of blood pressure.”

“People who consumed more than 13.7 grams of salt daily had a two times higher risk of heart failure compared to those consuming less than 6.8 grams,” he continued. “The optimal daily salt intake is probably even lower than 6.8 grams. The World Health Organization recommends a maximum of 5 grams per day and the physiological need is 2 to 3 grams per day.”

Prof Jousilahti concluded: “Studies in larger, pooled population cohorts are needed to make more detailed estimations of the increased heart failure risk associated with consuming salt.”

Higher coffee consumption associated with lower risk of death

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Higher coffee consumption is associated with a lower risk of death, according to research presented today at ESC Congress.1 The observational study in nearly 20 000 participants suggests that coffee can be part of a healthy diet in healthy people.

“Coffee is one of the most widely consumed beverages around the world,” said Dr Adela Navarro, a cardiologist at Hospital de Navarra, Pamplona, Spain. “Previous studies have suggested that drinking coffee might be inversely associated with all-cause mortality but this has not been investigated in a Mediterranean country.”

The purpose of this study was to examine the association between coffee consumption and the risk of mortality in a middle-aged Mediterranean cohort. The study was conducted within the framework of the Seguimiento Universidad de Navarra (SUN) Project, a long-term prospective cohort study in more than 22 500 Spanish university graduates which started in 1999.

This analysis included 19 896 participants of the SUN Project, whose average age at enrolment was 37.7 years old. On entering the study, participants completed a previously validated semi-quantitative food frequency questionnaire to collect information on coffee consumption, lifestyle and sociodemographic characteristics, anthropometric measurements, and previous health conditions.

Patients were followed-up for an average of ten years. Information on mortality was obtained from study participants and their families, postal authorities, and the National Death Index. Cox regression models were used to estimate hazard ratios (HR) and 95% confidence intervals (CI) for incident mortality according to baseline total coffee consumption adjusted for potential confounders.

During the ten year period, 337 participants died. The researchers found that participants who consumed at least four cups of coffee per day had a 64% lower risk of all-cause mortality than those who never or almost never consumed coffee (adjusted HR, 0.36; 95% CI, 0.19-0.70). There was a 22% lower risk of all-cause mortality for each two additional cups of coffee per day (adjusted HR, 0.78; 95% CI, 0.66-0.92).

The researchers examined whether sex, age or adherence to the Mediterranean diet had any influence on the association between baseline coffee consumption and mortality. They observed a significant interaction between coffee consumption and age (p for interaction=0.0016). In those who were at least 45 years old, drinking two additional cups of coffee per day was associated with a 30% lower risk of mortality during follow-up (adjusted HR, 0.70; 95% CI, 0.58-0.85). The association was not significant among younger participants.

Dr Navarro said: “In the SUN project we found an inverse association between drinking coffee and the risk of all-cause mortality, particularly in people aged 45 years and above. This may be due to a stronger protective association among older participants.”

She concluded: “Our findings suggest that drinking four cups of coffee each day can be part of a healthy diet in healthy people.”

Women motorbike riders group – Biking Queens – calls on PM

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A group of 50 women motorbike riders from Gujarat – the Biking Queens – today called on Prime Minister Narendra Modi in New Delhi.

The group says they have driven over 10,000 km, covering 13 States/UTs, and interacted with people on social themes, such as Beti Bachao, Beti Padhao; and Swachh Bharat. On 15th August, 2017, they unfurled the tricolour at Khardungla, in Ladakh.

The Prime Minister appreciated their efforts and wished them the best for their future endeavours.

Rural Games to take Place in Delhi

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Union Minister of Youth Affairs and Sports Minister shri Vijay Goel today announced that the first edition of Rural Games or Grameen Khel Mahotsav will kick-start from Delhi and will take place between 28th August to 3rd September, 2017. The Rural Games will aim at popularising the indigenous games like wrestling, athletics etc. and will also have fun games like Matka Race, Tug of War for senior citizens to add the fun element in the games.

Interacting with the media shri Goel said, “A Grameen Marathon marked the beginning of the Rural Games fever with participation of 16000 youth from rural Delhi. In the first stage, the games will be held in Alipur, Mehrauli, Nangloi, Najafgarh and Shahadara where 10000-12000 youngsters will participate and the second stage will commence on 31st August till 01 September 2017 which will have inter-block games.

Shri Goel further stated that the Ministry of Youth Affairs and Sports will also urge various State governments to replicate these Rural Games in their respective states and create a mass sporting event across India enabling grassroots level players and talented youngsters to showcase their talent.

Shri Goel mentioned that the ambitious plan of the sports talent search portal will be a reality on Monday 28th August, 2017. The portal will enable any person from across India to upload his information and as per that the Ministry will tap their talent and train them further in their respective disciplines.

High Salt Intake Doubles Risk of Heart Failure: Study

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High salt intake is associated with a doubled risk of heart failure, according to a 12-year study in more than 4,000 people.

The study assessed the relationship of salt intake and the development of heart failure.  This study used 24 hour sodium extraction, which is considered the gold standard for salt intake estimation at individual level.

“High salt (sodium chloride) intake is one of the major causes of high blood pressure and an independent risk factor for coronary heart disease (CHD) and stroke,” said Prof Pekka Jousilahti, research professor at the National Institute for Health and Welfare, Helsinki, Finland. “In addition to CHD and stroke, heart failure is one of the major cardiovascular diseases in Europe and globally but the role of high salt intake in its development is unknown.”

This was a prospective follow-up study of 4,630 randomly selected men and women aged 25 to 64 years at baseline who participated in the North Karelia Salt Study and the National FINRISK Study between 1979 and 2002 in Finland. Baseline data collection included a self-administered questionnaire on health behaviour, measurements of weight, height and blood pressure, a venous blood sample for laboratory analysis, and collection of a 24 hour urine sample.

At the study site, nurses measured urine volume and took a 100 ml sample for laboratory analysis. One gram of salt intake was calculated as equal to 17.1 mmol sodium excretion.

The study cohort was followed up for 12 years through computerised register linkage to National Health Records. Cases of incident heart failure were identified from the Causes of Death Register, the Hospital Discharge Register and drug reimbursement records. The association of salt intake in quintiles (<6.8g, 6.8-8.8g, 8.8-10.9g, 10.96-13.7g and >13.7g/day) and the risk of an incident new heart failure event was estimated.

During the follow-up, 121 men and women developed new heart failure. In an age, sex, study year and area adjusted model, hazard ratios in the 2nd, 3rd, 4th and 5th salt intake quintiles, compared to the 1st one, were: 0.83, 1.40, 1.70 and 2.10. After further adjustment for systolic blood pressure, serum total cholesterol level and body mass index the hazard ratios were: 1.13, 1.45, 1.56 and 1.75, respectively.

Prof Jousilahti said: “The heart does not like salt. High salt intake markedly increases the risk of heart failure. This salt-related increase in heart failure risk was independent of blood pressure.”

“People who consumed more than 13.7 grams of salt daily had a two times higher risk of heart failure compared to those consuming less than 6.8 grams,” he continued. “The optimal daily salt intake is probably even lower than 6.8 grams. The World Health Organization recommends a maximum of 5 grams per day and the physiological need is 2 to 3 grams per day.”

Prof Jousilahti said: “Studies in larger, pooled population cohorts are needed to make more detailed estimations of the increased heart failure risk associated with consuming salt.”

Modi Assails Bargaining Style of India

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In his ‘Mann Ki Baath’, Prime Minister Narendra Modi appealed the countrymen not to bargain too much with autodrvers and vegetable vendors when they could spend huge amounts on their restaurant bills without a second thought.

Taking cue from a phone call from one Aparna from Pune who complained about her friend repeatedly bargaining over small amounts with auto drivers, Modi responded saying, “Sometimes certain things become a part of our habits that we don’t even realize that we are doing something wrong.”

Aparna reportedly told PM Modi, “I want to tell you about a friend of mine. She always tries to help others, but one habit of her bothers me. I went for shopping with her at a mall. She coolly spent two thousand rupees on a sari, and four hundred and fifty rupees on a pizza. Whereas, she haggled for a long time, over merely five rupees, with the auto driver, who took us to the mall. On the way back, we stopped to buy vegetables, and again she haggled with the vendors to save 4-5 rupees. I feel very bad. We spend extravagantly in high places, without a single thought, but when it comes to our hardworking brethren, we quarrel with them over small amounts. We don’t trust them.”

Abhorring such habits, PM Modi said, “Don’t you feel that whenever a vendor comes to your door to sell something, on his rounds, when we come into contact with small shopkeepers, vegetable sellers, auto rickshaw drivers – in fact any person who earns through sheer hard work – we start bargaining with him, haggling with him: ‘No not so much, make it two rupees less, five rupees less!'”

The same people, who go to dine at a fine restaurant, don’t even bother to check the bill, but pay the money, without thinking twice. “When it comes to someone poor, we just cannot resist bargaining. Have you ever wondered what a poor man goes through? It is not a matter of two or five rupees, it hurts him deeply, when he feels that you are questioning his honesty,” he said.

“Two or five rupees make no difference to your life, but have you thought how much heartache this petty habit of yours can cause him. Madam I am grateful to you for calling me with this touching message. I am certain that my countrymen, if they are in the habit of behaving in this way with the poor will now stop doing so,” he advised.

Jan Dhan Yojana, 1 Billion-1 Billion-1 Billion Unleashing JAM Revolution: Arun Jaitley

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Pradhan Mantri Jan Dhan Yojana (PMJDY) aimed at providing financial services to the poor included opening bank accounts for the poor, giving them electronic means of payment (via RUPAY cards), and placing them in a position to avail themselves of credit and insurance or financial inclusion, said Finance Minister Arun Jaitley.

The vision underlying it was to end the financial, and hence economic, digital and social exclusion faced by India’s poor. India’s poor would not only be able to overcome their economic deprivation but they would also become an integral part of the social mainstream, he said.

Three years on, the achievements have been remarkable along many dimensions, according to the finance minister.

1. Total PMJDY accounts opened increased from 12.55 crore in January 2015 to 29.52 crore as of 16th Aug 2017.

2. The number of rural accounts opened under PMJDY has grown from 7.54 crore in January 2015 to 17.64 crore as of 16th Aug 2017.

3. No. of RuPay cards issued increased from 11.08 crore in January 2015 to 22.71 crore as of 16th Aug 2017.

4. The total balance in beneficiary accounts Rs. 65,844.68 crore and the average balance per account increased from Rs. 837 in January 2015 to Rs. 2231 as of 16th Aug 2017.

5. Zero balance accounts under PMJDY declined from 76.81 % in September 2014 to 21.41 % in August 2017.

6. As of March 2014, women constituted about 28 per cent of all savings accounts, with 33.69 crore accounts. As of March 2017, according to data from top 40 banks and RRBs, women’s share has risen to about 40 per cent. This includes 14.49 crore accounts opened by women under PMJDY, out of a total of 43.65 crore women’s accounts. This represents a sizeable and rapid growth in financial inclusion of women.

In addition to financial inclusion, the government has taken steps to provide security to the poor via life insurance under the Pradhan Mantra Jeevan Jyoti Bima Yojana (PMJJBY) and accident insurance Pradhan Mantra Suraksha Bima Yojana (PMSBY). As on 7th August, 2017, total enrollment was 3.46 crore under the PMJJBY and 10.96 crore under PMSBY. In both schemes, close to 40 percent of the enrollees are women, noted the minister.

The entire network created by the Pradhan Mantri Jan Dhan Yojana (PMJDY) has also enabled implementation of the Mudra Yojana and as on 18th August 2017, Rs.3.66 lakh crore have been distributed to 8.77 crore beneficiaries. These funds have all gone into their bank accounts directly, he said.

PMJDY and the other schemes were only the first step toward achieving the “JAM” revolution, he said.

JAM, a term coined, and a vision conceptualized, by our Chief Economic Adviser, is nothing short of a social revolution because it has brought together financial inclusion (PMJDY), biometric identification (Aadhaar) and mobile telecommunications. Today, about 52.4 crore unique Aadhaar numbers are linked to 73.62 crore accounts in India.

“Just as GST created one tax, one market, one India, the PMJDY and the JAM revolution can link all Indians into one common financial, economic, and digital space. No Indian will be outside the mainstream. This is nothing short of a social revolution,” said Jaitley.

Above all, the government now makes direct transfer of Rs. 74,000 crore to the financial accounts of 35 crore beneficiaries annually, at more than Rs. 6,000 crore per month. These transfers are made under various government anti-poverty and support schemes such as PAHAL, MNREGA, old age pensions, student scholarships etc.

Now with the BHIM app and the Unified Payments Interface (UPI), JAM can become fully operational. A secure and seamless digital payments infrastructure has been created so that all Indians, especially the poor can become part of the digital mainstream.

The JAM social revolution offers substantial benefits for government, the economy and especially the poor. The poor will have access to financial services and be cushioned against life’s major shocks. Government finances will be improved because of the reduced subsidy burden; at the same time, government will also be legitimized and strengthened because it can transfer resources to citizens faster and more reliably and with less leakage.

Within reach of the country is what might be called the 1 billion-1 billion-1 billion vision. That is 1 billion unique Aadhaar numbers linked to 1 billion bank accounts and 1 billion mobile phones. Once that is done, all of India can become part of the financial and digital mainstream.

 

ISRO to launch new satellite IRNSS-1H on August 31

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Indian Space Research Organization (ISRO) will launch its next satellite on August 31.

ISRO said it would put into orbit the IRNSS-1H satellite at 18:59 hours on Thursday, Aug. 31, 2017, using the rocket PSLV-C39 from Sriharikota. The payload would augment the capacity of India’s seven-satellite ‘NavIC’ constellation or the GPS equivalent in space.

The NavIC constellation consists of 3 IRNSS satellites located in suitable orbital slots in the geostationary orbit and the remaining 4 in geosynchronous orbits with the required inclination and equatorial crossings in two different planes. Configured identially, all the seven satellites are equipped with I-1K Bus to be compatible on-board the ISRO workhorse PSLV vehicle.

The first satellite in the series, IRNSS-1A developed a technical snag earlier, as its rubidium atomic clock failed in space, requiring the current satellite, which will take over the mantle of the first payload in the series.

IRNSS is an independent regional navigation satellite system being developed by India. It is designed to provide accurate position information service to users in India as well as the region extending up to 1500 km from its boundary, which is its primary service area. An Extended Service Area lies between primary service area and area enclosed by the rectangle from Latitude 30 deg South to 50 deg North, Longitude 30 deg East to 130 deg East.

IRNSS will provide two types of services, namely, Standard Positioning Service (SPS) which is provided to all the users and Restricted Service (RS), which is an encrypted service provided only to the authorised users. The IRNSS System is expected to provide a position accuracy of better than 20 m in the primary service area.

Some applications of IRNSS:

  • Terrestrial, Aerial and Marine Navigation
  • Disaster Management
  • Vehicle tracking and fleet management
  • Integration with mobile phones
  • Precise Timing
  • Mapping and Geodetic data capture
  • Terrestrial navigation aid for hikers and travellers
  • Visual and voice navigation for drivers

Finally Rs.200 Note Gets Into Circulation to Bridge ‘Missing Link’

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As reported earlier, new Rs. 200 notes have entered the circulation with many ATMs being recalibrated to provide the notes which are similar in size to Rs.500 notes but vary in colour with the colour yellow dominating the appearance.

The Reserve Bank of India, the central bank, has described the ne note as the missing link in the demonetisation process ushered in since November 8, 2016. Unlike other developed countries which have machines to give away the change, India has no such plans nor is it feasible for RBI with varying inflation in some parts.

Following the ban on Rs. 1,000 and Rs. 500 notes to check tax avasion, the central bank had introduced Rs. 2,000 notes and new Rs. 500 notes and the missing Rs.1000-note will now be answered by the circulation of new Rs.200 notes.

In a press statement, RBI said, “The Reserve Bank of India will issue on August 25, 2017 Rs. 200 denomination banknotes in the Mahatma Gandhi Series, bearing signature of Urjit R Patel, Governor, Reserve Bank of India from select RBI offices, and some banks.”

The Rs.200 note, issued in a dimension of 66mmX146mm, has the Sanchi Stupa and the portrait of Mahatma Gandhi at the centre and the denominational numeral “200” with rupee symbol in green to blue.

With this Indian currency system now has Rs. 1, 2, 5, 10, 20, 50, 100, 200, 500 and 2,000 currency notes in circulation as of today. There is no word on a new Rs.1000-note. Even the Rs.50-note has been changed to new series with a new look and additional security features.

“To achieve the optimal system of currency that would minimise the number of denominations while increasing the probability of proffering exact change, especially at the lower end of denominations, there is a logical need to introduce the missing denomination of Rs. 200, which will make the present currency system more efficient,” RBI justified its move.

The note has similar features for visually impaired as in other notes — the intaglio or raised printing of Mahatma Gandhi portrait, Ashoka Pillar emblem, raised identification mark ‘H’ with micro-text Rs. 200, four angular bleed lines with two circles in between the lines both on the right and left.

Rs.200 note reverse side

Salient features of the New ₹200 Notes:

1. See through register with denominational numeral 200,
2. Latent image with denominational numeral 200,
3. Denominational numeral २०० in Devnagari,
4. Portrait of Mahatma Gandhi at the centre,
5. Micro letters ‘RBI’, ‘भारत’, ‘India’ and ‘200’,
6. Windowed security thread with inscriptions ‘भारत’ and RBI with colour shift. Colour of the thread changes from green to blue when the note is tilted,
7. Guarantee Clause, Governor’s signature with Promise Clause and RBI emblem towards right of Mahatma Gandhi portrait,
8. Denominational numeral with Rupee Symbol, ₹ 200 in colour changing ink (green to blue) on bottom right,
9. Ashoka Pillar emblem on the right,
10. Mahatma Gandhi portrait and electrotype (200) watermarks,
11. Number panel with numerals growing from small to big on the top left side and bottom right side,
12. For visually impaired: Intaglio or raised printing of Mahatma Gandhi portrait, Ashoka Pillar emblem, raised Identification mark H with micro-text ₹ 200, four angular bleed lines with two circles in between the lines both on the right and left sides.
13. Year of printing of the note on the left,
14. Swachh Bharat logo with slogan,
15. Language panel,
16. Motif of Sanchi Stupa,
17. Denominational numeral २०० in Devnagari.

PM condemns violence over Dera Chief Gurmeet’s Conviction

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Indian Prime Minister Narendra Modi has condemned the instances of violence in parts of the country, which erupted following the court ruling convicting the local sect guru.

“The instances of violence today are deeply distressing. I strongly condemn the violence and urge everyone to maintain peace. The law and order situation is being closely monitored. I reviewed the situation with the NSA and Home Secretary. (I had) Urged officials to work round the clock to restore normalcy and provide all possible assistance that is required”, the Prime Minister said.

The trigger to violence came when the local sect guru Dera Chief Gurmeet Ram Rahim was convicted of rape of two women in his ashram. The special court of CBI, armed with irrefutable evidence, found him guilty on Friday. He will be sentenced to prison term on Monday by the court.

Meanwhile, the cult figure’s followers in Punjab turned violent and set several vehicles afire and created havoc in the states of Haryana and Punjab leading to heavy police bandobust and imposing of curfew in several areas.

The state of Punjab has been facing the twin problems of drugs and atrocities on women for the last 10 years and the Dera guru had reportedly helped many to come out of drug menace but in the process misused his power over the minds of his followers.

His followers were known to be ardent believers in his powers and tend to turn violent whoever questions his super-natural powers. Two deaths in the ashram in the past were not proved as nobody provided witness count. Many rapes go unreported, said earlier reports.

Omega-3 intake reduces cardiac death risk : A comprehensive new study

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Results from a new study published in the Journal of Clinical Lipidology showed that in 14 randomized, controlled trials (RCTs) of 71,899 people, consumption of EPA and DHA omega-3s reduced the risk of cardiac death by a statistically-significant average of 8 percent. Cardiac death accounts for about two-thirds (about 405,000) of all cardiovascular disease deaths in the United States, and 42 percent (7.4 million) globally, each year (1,2). This is the first published meta-analysis to include cardiac death (also known as “coronary mortality”) as a primary endpoint, and the most comprehensive review of the evidence to date.

The meta-analysis showed even greater — 17 percent — risk reduction in groups who had elevated triglycerides or LDL cholesterol. These results are consistent with the hypothesis that EPA and DHA omega-3s may be most useful for reducing cardiac death in higher risk individuals (see table), which is important since The National Center for Health Statistics estimates that 25 percent of adults in the US have triglyceride levels ≥150 mg/dL (3) and 27 percent have LDL cholesterol levels ≥130 mg/dL (4). The greatest reduction in cardiac death rates — an almost 30% risk reduction — was observed in trials that utilized dosages of more than 1 gram of EPA and DHA per day.

The RCTs reviewed were longer than six months in length, and investigated cardiac death as the primary outcome, comparing frequencies of cardiac death events between the omega-3 and control groups. The researchers reviewed studies published through December 2016 that included both dietary supplement and pharmaceutical omega-3 interventions. In the omega-3 groups, 1,613 cardiac deaths were recorded (4.48 percent of subjects) compared to 1,746 cardiac deaths in the control groups (4.87 percent of subjects). This study did not review the effects of EPA and DHA consumption from fish on cardiac death risk because no randomized, controlled trials exist, but observational studies on EPA and DHA from fish also support a benefit in risk reduction (5).

“It’s important to note that these results align with the conclusions in the recent Science Advisory from the American Heart Association, which states that EPA and DHA omega-3 treatment ‘is reasonable’ for secondary prevention of coronary heart disease and sudden cardiac death,” said Dr. Kevin Maki, lead study author and Chief Scientist for Midwest Biomedical Research’s Center for Metabolic and Cardiovascular Health. “One notable feature of EPA and DHA omega-3 supplementation is the low risk associated with its use. Because of the low risk for adverse effects, even a modest benefit is clinically meaningful.”

“This study is important because it explored the effects of omega-3s on a specific outcome of coronary heart disease,” said Dr. Harry B. Rice, VP of Regulatory and Scientific Affairs at GOED, which funded the study. “A number of studies in recent years have questioned omega-3 benefits in cardiovascular diseases. In order to understand the role omega-3s play in the cardiovascular system, however, research has to focus on a specific disease rather than all cardiovascular outcomes together. This is an important nuance that this meta-analysis helps clarify.”

Consuming sufficient amounts of EPA and DHA is part of eating a well-balanced diet and leading a healthy lifestyle. The Dietary Guidelines for Americans and the American Heart Association recommend consuming seafood/fatty fish each week (6,7). Two servings per week supplies 250-500 mg of EPA and DHA per day. In addition, the AHA also recommends 1 gram of EPA and DHA per day for those with diagnosed heart disease. Increasing omega-3 intake is easy and inexpensive, with omega-3 supplement costs ranging from $10-$60/month and fatty fish ranging from $10-$25+/month depending on the type of fish. Omega-3 are also widely viewed as safe; the U.S. FDA allows up to 3 grams per day and EFSA, the European Food Safety Authority, reports no safety issues with up to 5 grams per day. If consumers are allergic to fish or would like to take higher doses, they should consult their physicians.

A limitation of the results from the present meta-analysis is that several of the studies included were small, or had suboptimal trial designs. For example, two of the largest trials, GISSI-Prevenzione and JELIS, were controlled but did not utilize placebos. While this does raise the possibility of bias/confounding, this is less likely to be a concern with a fatal outcome, and removing individual studies from the analysis did not result in any changes in findings. Additionally, baseline and post-intervention omega-3 levels were not available in most studies, making it difficult to determine how much of an increase in blood levels actually occurred through supplementation.

The meta-analysis was funded by the Global Organization for EPA and DHA Omega-3s (GOED), but GOED was not involved in the design or interpretation of the results.

A more complete picture of the nano world

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They may be tiny and invisible, says Xiaoji Xu, but the aerosol particles suspended in gases play a role in cloud formation and environmental pollution and can be detrimental to human health.

Aerosol particles, which are found in haze, dust and vehicle exhaust, measure in the microns. One micron is one-millionth of a meter; a thin human hair is about 30 microns thick.

The particles, says Xu, are among the many materials whose chemical and mechanical properties cannot be fully measured until scientists develop a better method of studying materials at the microscale as well as the much smaller nanoscale (1 nm is one-billionth of a meter).

Xu, an assistant professor of chemistry, has developed such a method and utilized it to perform noninvasive chemical imaging of a variety of materials, as well as mechanical mapping with a spatial resolution of 10 nanometers.

The technique, called peak force infrared (PFIR) microscopy, combines spectroscopy and scanning probe microscopy. In addition to shedding light on aerosol particles, Xu says, PFIR will help scientists study micro- and nanoscale phenomena in a variety of inhomogeneous materials.

“Materials in nature are rarely homogeneous,” says Xu. “Functional polymer materials often consist of nanoscale domains that have specific tasks. Cellular membranes are embedded with proteins that are nanometers in size. Nanoscale defects of materials exist that affect their mechanical and chemical properties.

“PFIR microscopy represents a fundamental breakthrough that will enable multiple innovations in areas ranging from the study of aerosol particles to the investigation of heterogeneous and biological materials,” says Xu.

Xu and his group recently reported their results in an article titled “Nanoscale simultaneous chemical and mechanical imaging via peak force infrared microscopy.” The article was published in Science Advances, a journal of the American Association for the Advancement of Science, which also publishes Science magazine.

The article’s lead author is Le Wang, a Ph.D. student at Lehigh. Coauthors include Xu and Lehigh Ph.D. students Haomin Wang and Devon S. Jakob, as well as Martin Wagner of Bruker Nano in Santa Barbara, Calif., and Yong Yan of the New Jersey Institute of Technology.

“PFIR microscopy enables reliable chemical imaging, the collection of broadband spectra, and simultaneous mechanical mapping in one simple setup with a spatial resolution of ~10 nm,” the group wrote.

“We have investigated three types of representative materials, namely, soft polymers, perovskite crystals and boron nitride nanotubes, all of which provide a strong PFIR resonance for unambiguous nanochemical identification. Many other materials should be suited as well for the multimodal characterization that PFIR microscopy has to offer.

“In summary, PFIR microscopy will provide a powerful analytical tool for explorations at the nanoscale across wide disciplines.”

Xu and Le Wang also published a recent article about the use of PFIR to study aerosols. Titled “Nanoscale spectroscopic and mechanical characterization of individual aerosol particles using peak force hinfrared microscopy,” the article appeared in an “Emerging Investigators” issue of Chemical Communications, a journal of the Royal Society of Chemistry. Xu was featured as one of the emerging investigators in the issue. The article was coauthored with researchers from the University of Macau and the City University of Hong Kong, both in China.

PFIR simultaneously obtains chemical and mechanical information, says Xu. It enables researchers to analyze a material at various places, and to determine its chemical compositions and mechanical properties at each of these places, at the nanoscale.

“A material is not often homogeneous,” says Xu. “Its mechanical properties can vary from one region to another. Biological systems such as cell walls are inhomogeneous, and so are materials with defects. The features of a cell wall measure about 100 nanometers in size, placing them well within range of PFIR and its capabilities.”

PFIR has several advantages over scanning near-field optical microscopy (SNOM), the current method of measuring material properties, says Xu. First, PFIR obtains a fuller infrared spectrum and a sharper image–6-nm spatial resolution–of a wider variety of materials than does SNOM. SNOM works well with inorganic materials, but does not obtain as strong an infrared signal as the Lehigh technique does from softer materials such as polymers or biological materials.

“Our technique is more robust,” says Xu. “It works better with soft materials, chemical as well as biological.”

The second advantage of PFIR is that it can perform what Xu calls point spectroscopy.

“If there is something of interest chemically on a surface,” Xu says, “I put an AFM [atomic force microscopy] probe to that location to measure the peak-force infrared response.

“It is very difficult to obtain these spectra with current scattering-type scanning near-field optical microscopy. It can be done, but it requires very expensive light sources. Our method uses a narrow-band infrared laser and costs about $100,000. The existing method uses a broadband light source and costs about $300,000.”

A third advantage, says Xu, is that PFIR obtains a mechanical as well as a chemical response from a material.

“No other spectroscopy method can do this,” says Xu. “Is a material rigid or soft? Is it inhomogeneous–is it soft in one area and rigid in another? How does the composition vary from the soft to the rigid areas? A material can be relatively rigid and have one type of chemical composition in one area, and be relatively soft with another type of composition in another area.

“Our method simultaneously obtains chemical and mechanical information. It will be useful for analyzing a material at various places and determining its compositions and mechanical properties at each of these places, at the nanoscale.”

A fourth advantage of PFIR is its size, says Xu.

“We use a table-top laser to get infrared spectra. Ours is a very compact light source, as opposed to the much larger sizes of competing light sources. Our laser is responsible for gathering information concerning chemical composition. We get mechanical information from the AFM. We integrate the two types of measurements into one device to simultaneously obtain two channels of information.”

Although PFIR does not work with liquid samples, says Xu, it can measure the properties of dried biological samples, including cell walls and protein aggregates, achieving a 10-nm spatial resolution without staining or genetic modification.

Cabinet approves New Central Sector Scheme – “Pradhan Mantri Kisan Sampada Yojana”

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The Cabinet Committee on Economic Affairs, chaired by the Prime Minister Shri Narendra Modi, has approved the renaming of the new Central Sector Scheme – SAMPADA (Scheme for Agro-Marine Processing and Development of Agro-Processing Clusters) as “Pradhan Mantri Kisan Sampada Yojana (PMKSY) ” for the period of 2016-20 coterminous with the 14th Finance Commission cycle. Earlier, CCEA in its meeting held in May, 2017 approved the new Central Sector Scheme – SAMPADA (Scheme for Agro-Marine Processing and Development of Agro-Processing Clusters) with same allocation and period .

Objective:

The objective of PMKSY is to supplement agriculture, modernize processing and decrease Agri-Waste.

Financial Allocation:

PMKSY with an allocation of Rs. 6,000 crore is expected to leverage investment of Rs. 31,400 crore, handling of 334 lakh MT agro-produce valuing Rs. 1,04,125 crore, benefit 20 lakh farmers and generate 5,30,500 direct/ indirect employment in the country by the year 2019-20.

Impact:

• The implementation of PMKSY will result in creation of modern infrastructure with efficient supply chain management from farm gate to retail outlet.

• It will provide a big boost to the growth of food processing sector in the country.

• It will help in providing better prices to farmers and is a big step towards doubling of farmers’ income.

• It will create huge employment opportunities especially in the rural areas.

• It will also help in reducing wastage of agricultural produce, increasing the processing level, availability of safe and convenient processed foods at affordable price to consumers and enhancing the export of the processed foods.

Measures to give a boost to Food Processing Sector:

Food Processing Sector has emerged as an important segment of the Indian economy in terms of its contribution to GDP, employment and investment. During 2015-16, the sector constituted as much as 9.1 and 8.6 per cent of GVA in Manufacturing and Agriculture sector respectively.

The manifesto of NDA Government stresses upon incentivizing the setting up of food processing industry for providing better income for the farmers and creating jobs.

Government has taken various other measures to boost food processing sector as follows:

(a) To provide impetus to investment in food processing and retail sector, govt. has allowed 100% FDI in trading including through e-commerce, in respect of food products manufactured and / or produced in India. This will benefit farmers immensely and will create back – end infrastructure and significant employment opportunities.

(b) The govt. has also set up a Special Fund of Rs. 2000 crore in NABARD to make available affordable credit at concessional rate of interest to designated food parks and agro processing units in the designated food parks.

(c) Food and agro-based processing units and cold chain infrastructure have been brought under the ambit of Priority Sector Lending (PSL) to provide additional credit for food processing activities and infrastructure thereby, boosting food processing, reducing wastage, create employment and increasing farmers’ income.

Background:

PMKSY is an umbrella scheme incorporating ongoing schemes of the Ministry like Mega Food Parks, Integrated Cold Chain and Value Addition Infrastructure, Food Safety and Quality Assurance Infrastructure, etc. and also new schemes like Infrastructure for Agro-processing Clusters, Creation of Backward and Forward Linkages, Creation / Expansion of Food Processing & Preservation Capacities.

National Sports Museum to be established in New Delhi

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The Ministry of Youth Affairs and Sports is going to establish National Sports Museum, first of its kind, at Jawaharlal Nehru Stadium, New Delhi. The decision was taken three months back and after a series of meetings and his personal visits to several locations in the capital, the current venue for museum was finalized by the Sports Minister Shri Vijay Goel himself.

Shri Vijay Goel said, the Museum will showcase the India’s achievements in sports and also focus on the traditional sports within the country. He said, the aim of the Museum is to popularise the sports as a way of life within the country. Accordingly, the proposed Museum would go beyond the classical approach of a collection of memorabilia to become an interactive venue of interest for all age groups. In addition, Shri Goel said, it will display achievements of the Indian greats in sports and also act as an educational hub and offer opportunity for the young to delve into some sporting activity.

Shri Vijay Goel has appealed to all past and present sports persons and members of public to contribute any memorabilia held by them for permanent display in the National Sports Museum. He said such contribution will be recognized and acknowledged.

Shri Goel said that it is proposed that the Museum will have audio-visual display of rules and legacy events pertaining to various sports as part of education for the budding sportspersons, a well-equipped library of sports and physical fitness, painting gallery and amphitheater for screening of legacy matches/ contests/games is also planned.

He said, the Museum will also have a cafeteria, an activity zone, a souvenir/pro shop and a play area. It is proposed that the activities planned in various segments will include sporting activities, sports related computer games and kiosks selling sports memorabilia and sports equipment.

Shri Vijay Goel said the first phase for establishing the museum will commence soon as the idea has been transformed from concept to museum model stage by the experts.

Turning human waste into plastic, nutrients could aid long-distance space travel

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Imagine you’re on your way to Mars, and you lose a crucial tool during a spacewalk. Not to worry, you’ll simply re-enter your spacecraft and use some microorganisms to convert your urine and exhaled carbon dioxide (CO2) into chemicals to make a new one. That’s one of the ultimate goals of scientists who are developing ways to make long space trips feasible.

The researchers are presenting their results today at the 254th National Meeting & Exposition of the American Chemical Society (ACS). ACS, the world’s largest scientific society, is holding the meeting here through Thursday. It features nearly 9,400 presentations on a wide range of science topics.

A brand-new video on the research is available at http://bit.ly/acsmars.

Astronauts can’t take a lot of spare parts into space because every extra ounce adds to the cost of fuel needed to escape Earth’s gravity. “If astronauts are going to make journeys that span several years, we’ll need to find a way to reuse and recycle everything they bring with them,” Mark A. Blenner, Ph.D., says. “Atom economy will become really important.”

The solution lies in part with the astronauts themselves, who will constantly generate waste from breathing, eating and using materials. Unlike their friends on Earth, Blenner says, these spacefarers won’t want to throw any waste molecules away. So he and his team are studying how to repurpose these molecules and convert them into products the astronauts need, such as polyesters and nutrients.

Some essential nutrients, such as omega-3 fatty acids, have a shelf life of just a couple of years, says Blenner, who is at Clemson University. They’ll need to be made en route, beginning a few years after launch, or at the destination. “Having a biological system that astronauts can awaken from a dormant state to start producing what they need, when they need it, is the motivation for our project,” he says.

Blenner’s biological system includes a variety of strains of the yeast Yarrowia lipolytica. These organisms require both nitrogen and carbon to grow. Blenner’s team discovered that the yeast can obtain their nitrogen from urea in untreated urine. Meanwhile, the yeast obtain their carbon from CO2, which could come from astronauts’ exhaled breath, or from the Martian atmosphere. But to use CO2, the yeast require a middleman to “fix” the carbon into a form they can ingest. For this purpose, the yeast rely on photosynthetic cyanobacteria or algae provided by the researchers.

One of the yeast strains produces omega-3 fatty acids, which contribute to heart, eye and brain health. Another strain has been engineered to churn out monomers and link them to make polyester polymers. Those polymers could then be used in a 3-D printer to generate new plastic parts. Blenner’s team is continuing to engineer this yeast strain to produce a variety of monomers that can be polymerized into different types of polyesters with a range of properties.

For now, the engineered yeast strains can produce only small amounts of polyesters or nutrients, but the scientists are working on boosting output. They’re also looking into applications here on Earth, in fish farming and human nutrition. For example, fish raised via aquaculture need to be given omega-3 fatty acid supplements, which could be produced by Blenner’s yeast strains.

Although other research groups are also putting yeast to work, they aren’t taking the same approach. For example, a team from DuPont is already using yeast to make omega-3 fatty acids for aquaculture, but its yeast feed on refined sugar instead of waste products, Blenner says. Meanwhile, two other teams are engineering yeast to make polyesters. However, unlike Blenner’s group, they aren’t engineering the organisms to optimize the type of polyester produced, he says.

Whatever their approach, these researchers are all adding to the body of knowledge about Y. lipolytica, which has been studied much less than, say, the yeast used in beer production. “We’re learning that Y. lipolytica is quite a bit different than other yeast in their genetics and biochemical nature,” Blenner says. “Every new organism has some amount of quirkiness that you have to focus on and understand better.”