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ISROs Oceansat2 satellite data was used to report greenland ice melt.. gloomy news about melt, but isro-nasa co-op is bearing some good result for mankind!

here is the report:


Eye in sky reveals sudden ice melt in Greenland

A massive ice sheet in Greenland has melted this month over an unusually larger area, which was detected after analysing radar data from the Indian Space Research Organization's ( ISRO) Oceansat-2 satellite. The 'unprecedented' melting is highest in three decades of satellite observation, Nasa said.
Melting even occurred at Greenland's coldest and highest place, Summit station. The thawed ice area jumped from 40% of the ice sheet to 97% in just four days from July 8 to July 12. Although about half of Greenland's ice sheet normally melts over the summer months, the speed and scale of this year's melting surprised scientists, who described the phenomenon as "extraordinary".

Son Nghiem of Nasa's Jet Propulsion Laboratory in Pasadena, California, was analysing radar data from the ISRO's Oceansat-2 satellite last week when he noticed that most of Greenland appeared to have undergone surface melting on July 12. "This was so extraordinary that at first I questioned the result: was this real or was it due to a data error?" Nghiem said. Nasa said that nearly the entire ice cover of Greenland, from its thin, low-lying coastal edges to its centre, which is 3 km thick, experienced some degree of melting at its surface. "Satellite observations are helping us understand how events like these may relate to one another as well as to the broader climate system," said Tom Wagner, Nasa's cryosphere programme manager in Washington.

He said that, because this Greenland-wide melting has happened before, Nasa is not yet able to determine if this is a natural but rare event, or if it has been sparked by manmade global warming.

Scientists believe much of Greenland's ice was already freezing again. Until now, the most extensive melting seen by satellites in the past three decades was about 55% of the area. Ice last melted at Summit station in 1889.

The news comes days after Nasa satellite imagery revealed that a massive iceberg, twice the size of Manhattan, had broken off a glacier in Greenland.


Eye in sky reveals sudden ice melt in Greenland - The Times of India
 
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A report from NASA's own site on the above news
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science.nasa.com: Satellites See Unprecedented Greenland Ice Sheet Surface Melt

July 24, 2012: For several days this month, Greenland's surface ice cover melted over a larger area than at any time in more than 30 years of satellite observations. Nearly the entire ice cover of Greenland, from its thin, low-lying coastal edges to its two-mile-thick center, experienced some degree of melting at its surface, according to measurements from three independent satellites analyzed by NASA and university scientists.

On average in the summer, about half of the surface of Greenland's ice sheet naturally melts. At high elevations, most of that melt water quickly refreezes in place. Near the coast, some of the melt water is retained by the ice sheet and the rest is lost to the ocean. But this year the extent of ice melting at or near the surface jumped dramatically. According to satellite data, an estimated 97 percent of the ice sheet surface thawed at some point in mid-July.

image_full


Extent of surface melt over Greenland’s ice sheet on July 8 (left) and July 12 (right). Measurements from three satellites showed that on July 8, about 40 percent of the ice sheet had undergone thawing at or near the surface. In just a few days, the melting had dramatically accelerated and an estimated 97 percent of the ice sheet surface had thawed by July 12.

Researchers have not yet determined whether this extensive melt event will affect the overall volume of ice loss this summer and contribute to sea level rise.

"The Greenland ice sheet is a vast area with a varied history of change. This event, combined with other natural but uncommon phenomena, such as the large calving event last week on Petermann Glacier, are part of a complex story," said Tom Wagner, NASA's cryosphere program manager in Washington. "Satellite observations are helping us understand how events like these may relate to one another as well as to the broader climate system."

Son Nghiem of NASA's Jet Propulsion Laboratory in Pasadena, Calif., was analyzing radar data from the Indian Space Research Organisation's (ISRO) Oceansat-2 satellite last week when he noticed that most of Greenland appeared to have undergone surface melting on July 12. Nghiem said, "This was so extraordinary that at first I questioned the result: was this real or was it due to a data error?"

Nghiem consulted with Dorothy Hall at NASA's Goddard Space Flight Center in Greenbelt, Md. Hall studies the surface temperature of Greenland using the Moderate-resolution Imaging Spectroradiometer (MODIS) on NASA's Terra and Aqua satellites. She confirmed that MODIS showed unusually high temperatures and that melt was extensive over the ice sheet surface.

Thomas Mote, a climatologist at the University of Georgia, Athens, Ga; and Marco Tedesco of City University of New York also confirmed the melt seen by Oceansat-2 and MODIS with passive-microwave satellite data from the Special Sensor Microwave Imager/Sounder on a U.S. Air Force meteorological satellite.

The melting spread quickly. Melt maps derived from the three satellites showed that on July 8, about 40 percent of the ice sheet's surface had melted. By July 12, 97 percent had melted.

This extreme melt event coincided with an unusually strong ridge of warm air, or a heat dome, over Greenland. The ridge was one of a series that has dominated Greenland's weather since the end of May. "Each successive ridge has been stronger than the previous one," said Mote. This latest heat dome started to move over Greenland on July 8, and then parked itself over the ice sheet about three days later. By July 16, it had begun to dissipate.

Even the area around Summit Station in central Greenland, which at 2 miles above sea level is near the highest point of the ice sheet, showed signs of melting. Such pronounced melting at Summit and across the ice sheet has not occurred since 1889, according to ice cores analyzed by Kaitlin Keegan at Dartmouth College in Hanover, N.H. A National Oceanic and Atmospheric Administration weather station at Summit confirmed air temperatures hovered above or within a degree of freezing for several hours July 11-12.

"Ice cores from Summit show that melting events of this type occur about once every 150 years on average. With the last one happening in 1889, this event is right on time," says Lora Koenig, a Goddard glaciologist and a member of the research team analyzing the satellite data. "But if we continue to observe melting events like this in upcoming years, it will be worrisome."

More Information:Nghiem's finding while analyzing Oceansat-2 data was the kind of benefit that NASA and ISRO had hoped to stimulate when they signed an agreement in March 2012 to cooperate on Oceansat-2 by sharing data.
 
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Satellite imaging keeps close eye on onion crop - The Times of India


PUNE: The onion crop in Maharashtra and Gujarat is being mapped by the Indian Space Research Organization (ISRO) through satellite imaging.

The eye-in-the-sky has been capturing the crop to provide more accurate estimates about cultivation, the area under the crop and the expected yield. This work is done manually when revenue officials visit farms and collate the data.

The mapping will help the Union agriculture ministry tackle price fluctuations, sanction financial assistance if the crop is damaged and thus prevent political fallouts.

Nashik-based National Horticulture Research and Development Federation (NHRDF) was appointed by the National Crop Forecast Centre (NCFC) under the agriculture ministry to map the onion crop in Maharashtra last October. Other onion producing-states like Gujarat, Karnataka and Madhya Pradesh will also be mapped from October.

Satish Bhonde, additional director of the federation, said Nashik, Dhule, Pune, Ahmednagar and Satara districts grow onion. "The federation receives satellite images from ISRO's Hyderabad centre. The Union government provided Rs 30 lakh for the exercise in October 2011 and will release another Rs 25 lakh this year for satellite mapping and data processing," he added.

A team visits farms cultivating onion and the latitudes are recorded using global positioning system. The satellite images and latitudes are studied together to identify the change in crop colour, density of crop, and growth pattern.

If the satellite images reveal a slight deviation in the crop colour, generally due to some damage or attack by pests, it will be easier to issue alerts and initiate corrective steps to control the situation. It will be more useful during pest attacks than any natural cause damaging the crops.

"A signature of onion crop is developed after processing the images taken at various times and then its accuracy is checked with fresh satellite images. Though it was used for the first time last year, the accuracy was as high as 75%. Mapping will start again from October and we expect 100% accuracy," said H P Sharma, deputy director of the federation.

More crops like banana, cashew, grapes and oranges are on the mapping list. Some other organizations are looking after their mapping and data processing. Maharashtra and Gujarat were in the first phase, while Madhya Pradesh and Karnataka will be included next. Mapping cannot be done during the monsoon as clouds affect the imaging process.

An ISRO spokesperson confirmed that ISRO and NCFC are sharing satellite images for the Union government's crop forecasting project through the centre at Hyderabad. "Some organizations in other states want satellite images for crop mapping. We provide them," the spokesperson added.

Sources in the Delhi-based centre said, "Our centre operationalizes existing methodologies developed by ISRO on crop forecasts, as part of forecasting agricultural output using space, agro-meteorological and land based observations and drought assessment. More crops would be included in the crop forecast and the sub-district level for a moderate to high-resolution drought assessment in collaboration with ISRO in two years."

NCFC will generate reports on crop cultivation and forecasting of crop production at the national level. The crops which would be mapped include jowar, bajra, rice, wheat, some pulses and regional crops and fruits.
 
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When's the GSLV-III's maiden flight?

could happen anytime, nxt year. The rocket is already assembled and on launch pad. I think they will launch the mk2 to test the cryogenic upper stage, and then finally launch mk3. Cant want for it. India will finally enter the big league, ready to take massive missions and completely independent in space.
 
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India gives go-ahead to Mars mission

NEW DELHI, Aug. 3 (UPI) -- The Indian government has approved a mission to send a satellite to orbit Mars next year, officials said.

The Union Cabinet has cleared the Indian Space Research Organization's mission to Mars, set for launch in November 2013, The Hindu reported Friday.

The program, expected to cost about $80 million, will put a spacecraft with a 55-pound scientific payload into an orbit 62 miles above the Red Planet.

A rocket will launch from the southeastern coast of India, taking the satellite into deep space. The satellite will then travel on to Mars to achieve orbit, a senior project scientist said.

The project comes on the heels of the Chandrayaan lunar mission, which four years ago found evidence of water on the moon.

India is also said to be considering putting a wheeled rover on the moon in 2014.

With the approval of the Mars project, India joins the United States, Russia, Europe, Japan and China in undertaking such an effort.

India gives go-ahead to Mars mission - UPI.com
 
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India gives go-ahead to Mars mission
we should focus on manned space mission instead but well mars is ok
i've a question though...
what is the weight of pslv/gslvs payload fairing?
i've seen an image of indias human spaceflight orbital vechicle which have weiht of 10 tonnes including shroud
escape_system.jpg

can we use gslv for this or should have to wait for gslv mk3
 
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we should focus on manned space mission instead but well mars is ok
i've a question though...
what is the weight of pslv/gslvs payload fairing?
i've seen an image of indias human spaceflight orbital vechicle which have weiht of 10 tonnes including shroud
escape_system.jpg

can we use gslv for this or should have to wait for gslv mk3

According to wiki the GSLV has a payload to LEO of only five tons. You'll have to wait for the -3.
 
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HAL makes rocket fuel tank for ISRO


Bangalore, July 19 — Stat-run defence behemoth Hindustan Aeronautics Ltd (HAL) has designed and built an indigenous fourth stage rocket fuel tank for the Indian space agency, helping it to save foreign exchange.
"We have delivered the fuel tank (propellant) to the Indian Space Research Organisation (ISRO) for use in its polar satellite launch vehicle (PSLV). The indigenisation effort has resulted in saving of Rs.1.2 crore in foreign exchange," HAL chairman R.K. Tyagi said in a statement here Thursday.

A propellant tank is a pressurised vessel where liquid fuels are stored for firing a rocket into the space orbit. It is made of composite materials such as aluminium alloy, steel and carbon fibre.
"The fourth stage fuel tank has been built to carry 1.6 tonne of liquid propellant mono-methyl hydrazine as fuel and mixed oxides of nitrogen as oxidizer during the flight," Tyagi said.
The aerospace major built the tank and its components while the space agency's liquid propulsion centre at Mahendragiri in southern Tamil Nadu did the welding work.
The indigenisation of the fuel tank has been achieved by the coordinated efforts of HAL, ISRO and other state-run Bharat Heavy Plate and Vessels (BHPV) and Midhani, which are based at Vishakapatnam and Hyderabad.
IANS


HAL makes rocket fuel tank for ISRO - NY Daily News
 
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India to launch three satellites next month



Chennai, Aug 3 (IANS) India will launch three satellites next month and two more by the end of this year, said a senior official here.

“We will be launching Spot-6, a French satellite and a small Japanese satellite on board PSLV-C21 (Polar Satellite Launch Vehicle) rocket, next month,” P.S.Veeraraghavan, director, Vikram Sarabhai Space Centre (VSSC), told IANS.

The third is a communication satellite – GSAT-10 – on-board Ariane rocket from Kourou in French Guiana.

The Thiruvananthapuram-based VSCC is part of India’s space agency Indian Space Research Organisation (ISRO).

Veeraraghavan said the French satellite is expected to be in India soon while the Japanese satellite is already at ISRO’s launch centre at Sriharikota in Andhra Pradesh, around 80 km from here.

ISRO’s commercial arm Antrix Corporation Limited (Antrix) has entered into a commercial Launch Services Agreement with Astrium SAS, a company under EADS, France, for launching SPOT-6, an advanced remote sensing satellite.

What is interesting is that the 800-kg SPOT-6 built by Astrium SAS will be the heaviest third party payload that ISRO will be carrying after the 350-kg Italian satellite Agile it put into orbit in 2007.

As the total luggage will be around 815 kg, ISRO will be using its Core Alone variant of PSLV (rocket without its six strap on motors).

The mission will take ISRO’s total tally of ferrying foreign satellites to 29.

The Indian space agency in order to augment its communication transponder capacity-(automatic receivers and transmitters for communication and broadcast of signals) will be sending up GSAT-10.

The 3.4 tonne satellite will carry 12 Ku Band, 12 C Band and 12 Extended C Band transponders and GAGAN (global positioning satellite-GPS and GEO augmented navigation) payload.

According to Veeraraghavan, the space agency would launch SARAL satellite – an Indo-French initiative – using PSLV-C20 rocket sometime in October-November this year.

Agreeing that ISRO normally do not launch any rockets during that period, Veeraraghavan said if the weather is conducive the rocket could be sent up.

He said ISRO is also planning to launch GSAT-14 a small communication satellite by this December or January next year using its heavier rocket Geosynchronous Satellite Launch Vehicle (GSLV).

The two ton GSAT-14 considered as the replacement for India’s the education satellite Edusat is configured with six Ku and six Extended C Band transponders.

In addition, the spacecraft also carries Ka band beacons, which are planned to be used to carry out studies related to rain and atmospheric effects on Ka band satellite communication links in Indian region.

ISRO will be flying the GSLV rocket this time with its own cryogenic engine. This will be the second GSLV rocket to fly with indigenous cryogenic engine. The first GSLV rocket that flew with indigenous cryogenic engine in 2010 was a failure.

Interestingly, ISRO will be flying a GSLV rocket after a gap of two years. In December 2010, another GSLV rocket with Russian made cryogenic engine was destroyed mid-air within a minute after lift off.

Veeraraghavan said ISRO will be testing its GSLV Mark III model next March but without the cryogenic engine.

“The mission is called X Mission. The rocket will have only the first two stages/engines powered by solid and liquid fuels. The subsystems for the cryogenic engine are being tested. The cryogenic engine is much bigger than the one that will power other GSLV,” Veeraraghavan said.
 
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According to wiki the GSLV has a payload to LEO of only five tons. You'll have to wait for the -3.
but the manned gslv wont have the usual payload fairing right and the weight including new payload fairing is 10 tonnes

mk3 is delayed on to 2017(first operational flight):cry:
so manned mission by 2020 only
 
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GSLV with indigenous cryogenic engine set for 2013 launch

CHENNAI (PTI): With a series of ground tests already over, ISRO is planning to launch its ambitious GSLV space mission with indigenously built cryogenic engine early next year, a top official has said.

ISRO chairman Dr K Radhakrishnan said that two major ground tests remained before integrating the GSLV vehicle for launch.

“A lot of ground tests have already been conducted and we need to do two major ground tests this year, scheduled from September to November. Once the tests are successful the cryogenic stage will be integrated into the GSLV vehicle for launch”, he told reporters at the sidelines of a convocation here.

The previous two GSLV launches by the premier space agency were unsuccessful.

On India’s Mars mission, he said ISRO was working to meet the November 2013 launch target. The Union cabinet had recently okayed the space agency’s proposal to send a mission to the red planet.

Earlier in his address, Radhakrishnan said ISRO’s budget was only 0.34 per cent of Central government expenditure even as he noted “we are one of the six space agencies in the world having capability to build and launch satellites from our own soil.”

GSLV with indigenous cryogenic engine set for 2013 launch
 
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A timeline of Isro’s journey


1962 – Indian National Committee for Space Research set up by the Department of Atomic Energy. Work starts on Thumba Equatorial Rocket Launching Station (TERLS) in Kerala.

1963 – First sounding rocket launched from TERLS Nov 21.

1965 – Space Science and Technology Centre set up in Thumba.

1968 – Experimental Satellite Communication Earth Station set up in Ahmedabad, Gujarat.

1969 – Indian Space Research Organisation (ISRO) formed Aug 15 under the Department of Atomic Energy.

1971 – Satish Dhawan Space Centre (formerly SHAR Centre) formed in Sriharikota, Andhra Pradesh.

1972 – Department of Space (DoS) established and ISRO brought under it. ISRO Satellite Centre set up in Bangalore and Space Applications Centre in Ahmedabad.

1975 – Satellite Instructional Television Experiment using an US satellite. First Indian satellite, Aryabhata, launched into space April 19.

1977 – Satellite Telecommuncation Experiments Project (1977-79) using Franco-German Symphonie Satellite.

1979 – Bhaskara-1, an earth observation experimental satellite, launched. First experimental launch of Satellite Launch Vehicle (SLV-3) carrying the Rohini satellite. The satellite not placed in the orbit.

1980 – Second experimental launch of SLV-3 with Rohini. Mission successful.

1981 – First developmental launch of SLV-3. Rohini placed into orbit. Launch of APPLE, an experimental geo-stationary communication satellite. Launch of Bhaskara-2 by an USSR rocket.

1982 – Launch of Insat-1A communication satellite by an US rocket.

1983 – Second developmental flight of SLV-3 placed Rohini into orbit. Insat system commissioned with launch to Insat-1B satellite.

1984 – First Indian cosmonaut, Rakesh Sharma, spends eight days in Russian space station Salyut 7. He flew in Russian rocket Soyuz T-11.

1987 – First development launch of Augmented SLV (ASLV) with satellite SROSS-1. Mission failed.

1988 – Launch of Indian Remote Sensing (IRS) satellite – IRA-1A through a Russian rocket. Second developmental flight of ASLV with SROSS satellite. Mission failed.

1991 – Launch of second operational remote sensing satellite IRS-1B.

1992 – First successful launch of ASLV placing SROSS-C satellite. Launch of Insat-2A, the first satellite of the indigenously-built second generation Insat series, followed by the 3 and 4 series.

1993 – First development flight of Polar Satellite Launch Vehicle (PSLV) with IRS-1E. Mission failed.

1994 – Fourth developmental flight of ASLV with SROSS-C2. Mission successful. Successful launch of PSLV placing IRS-P2 in orbit.

1996 – Third developmental flight of PSLV with IRS-P3.

1997 – First operational launch of PSLV carrying IRS-1D.

1999 – PSLV started carrying foreign payloads (Korean and German satellites) along with ISRO’s satellite Oceansat.

2001 – Successful launch of heavy rocket Geosynchronous Satellite Launch Vehicle (GSLV) with GSAT-1 satellite. Launch of PSLV with India’s Technology Experimental Satellite and satellites from Belgium and Germany.

2002 – Launch of Kalpana-1 satellite on-board a PSLV rocket.

2003 – Launch of GSat-2 on board GSLV and Resourcesat-1 by PSLV.

2004 – Launch of Edusat by GSLV’s first operational flight.

2005 – Commissioning of second launch pad at Sriharikota. Launch of Cartosat-1 and Hamsat by PSLV.

2006 – Second operational flight of GSLV with Insat-4C. For the first time, an Indian rocket carried a communication satellite. The mission failed.

2007 – Launch of Cartosat-2 with Space Capsule Recovery Experiment and two foreign satellites and successful recovery of the space capsule. Launch of Italian satellite AGILE by PSLV and Insat-4CR by GSLV.

2008 – Launch of Israeli satellite Tecsar by PSLV. Launch of two Indian and eight foreign satellites by a single PSLV. India’s first moon mission Chandrayaan-1 by PSLV.

2009 – Launch of Radar Imaging Satellite (Risat-2) and Anusat from Anna University (first satellite from an Indian university) by PSLV. Launch of seven satellites by PSLV, including India’s Oceansat.

2010 – Failure of two GSLV missions. Launch of Cartosat-2B, STUDSAT and three small foreign satellites by PSLV.

2011 – Launch of Resourcest-2 and two small satellites by PSLV. Launch of GSAT-12 by PSLV. Launch of Megha Tropiques and three small satellites by PSLV.

2012 – Launch of Risat-1 by PSLV. Launch of French satellite SPOT 6 and Japanese satellite Proiteres.
 
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