Career Profile: The Basics of Being a Geologist or Hydrologist in Today’s Economy

Posted: September 30, 2011 | Author: | Filed under: Guest Post | 1 Comment »

 Guest Post by Nadia Jones

 As society and business becomes more and more interested in the environmental well-being of our planet, geologists and hydrologists will become even more important and prevalent in the job market. These two specialized careers have quickly become some of the fast growing positions in the environmental, business, and governmental sectors of employment. These two areas of science explore the composition, structure, and other physical aspects of the Earth both today and in years past. With a growing concern about our depleting natural resources, many geologists and hydrologists are employed to search for natural resources such as groundwater, minerals, metals, and petroleum. Others work alongside other scientists to help preserve and improve the environment and our use of it.

Education and Training

Obtaining a job as a hydrologist or geologist requires highly specialized training and education. While there are some entry level positions for individuals holding a bachelor’s degree in geosciences or hydrology, the majority of work is found for people with a master’s degree or higher. In general, any serious geological field position with the government or a private contractor will require a master’s degree in some specialty area of the geosciences depending on the field of work. A Ph.D. is generally only required for a highly-advanced research position or a college teaching position. Among most universities throughout the country, hydrology is not a major of its own. Students interested in pursuing a hydrology degree will most often have to major in geoscience, environmental science, or engineering with a concentration in hydrology or water studies. In addition to obtaining a specialized degree, individuals seeking several positions in the area of geology and hydrology will have to obtain a license or certificate. These documents are distributed by the State and are only required for specific positions within the field.

Employment Statistics

According to the U.S. Bureau of Labor Statistics, 23 percent of geoscientists were employed in architectural and engineering positions and 19 percent worked for oil and gas companies. Another 9 percent of geoscientists were employed by the State as geological surveyors or as part of the environmental conservation department. The Federal Government employs 8 percent of the geoscientists as geologists, geophysicists, and oceanographers. The U.S. Department of the Interior for the U.S. Geological Survey and the U.S. Department of Defense are two areas of the government where talented and well education geoscientists are highly sought after.

On the Job Market

Between 2008 and 2018, geoscientist and hydrologist employment is expected to grow by 18 percent. This is much faster than the average employment growth rate in the economy today. It is anticipated that more and more job opportunities will arise for individuals educated and passionate about environmental issues involved with geology and hydrology. While the job prospect for individuals only carrying a bachelor’s degree are less, master’s degree holders in geosciences should have excellent opportunities in many different areas of the job market. Intelligent candidates can find jobs in oil and gas extraction, the Federal Executive Branch, architecture, engineering, management, scientific consulting, and in the State government. Individuals successful in landing a job in an area related to the field of geology or hydrology can expect high earnings on average. The median annual wages for geoscientists according to the Bureau of Labor Statistics was $79,160 in 2008. However, some of the highest paid geologist positions are in oil and gas averaging at $127,560 a year.

The geosciences are no simple area of study to enter. The education and training required to become truly successful within any field of geosciences is highly grueling. But, with the right training and the proper education, professional prospects in the geosciences sector are high. There is an urgent need to better understand our Earth and its natural resources and properties.

Author Bio:

This is a guest post by Nadia Jones who blogs at online college about education, college, student, teacher, money saving, movie related topics. You can reach her at nadia.jones5 @ gmail.com.

New Boom Reshapes Oil World

Posted: September 27, 2011 | Author: | Filed under: News | Leave a comment »

Two years ago, America was importing about two thirds of its oil. Today, according to the Energy Information Administration, it imports less than half. And by 2017, investment bank Goldman Sachs predicts the US could be poised to pass Saudi Arabia and overtake Russia as the world’s largest oil producer.

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Oceansat-II of India will provide fishing location data

Posted: September 24, 2011 | Author: | Filed under: oceans, Satellites | Leave a comment »

Oceansat-II, scheduled to be launched on October 12, will provide information to fishermen on the optimal locations for fishing. The ground station will be in a position to issue the advisory by 5 PM which would prove handy for fishermen, since most of them go into the sea in the evening, stated SSC Shennoi, Director, Indian National Centre for Ocean Information Services (INCOIS), during the inauguration of the ground station to receive data from the OCEANSAT-II satellite at the INCOIS.

Oceansat-2 is an Indian satellite designed to provide service continuity for operational users of the Ocean Colour Monitor (OCM)instrument on Oceansat-1. It will also enhance the potential of applications in other areas. The main objectives of OceanSat-2 are to study surface winds and ocean surface strata, observation of chlorophyll concentrations, monitoring of phytoplankton blooms, study of atmospheric aerosols and suspended sediments in the water.Oceansat-2 is ISRO’s second in the series of Indian Remote Sensing satellites dedicated to ocean research, and will provide continuity to the applications of Oceansat-1 (launched in 1999). Oceansat-2 will carry three payloads including an Ocean Colour Monitor (OCM-2), similar to the device carried on Oceansat-1. Data from all instruments will be made available to the global scientific community after the post-launch sensor characterization, which is expected to be completed within 6 months of the launch.

Oceansat-2 will carry two payloads for ocean related studies, namely, Ocean Colour Monitor (OCM) and Ku-band Pencil Beam Scatterometer. An additional piggy-back payload called ROSA (Radio Occultation Sounder for Atmospheric studies) developed by the Italian Space Agency (ASI) is also proposed to be included. The major applications of data from Oceansat-2 are identification of potential fishing zones, sea state forecasting, coastal zone studies and inputs for weather forecasting and climatic studies.

As a Cyclone Predictor

India’s Oceansat II satellite is capable to predict accurately the intensity of cyclones as well as the locations it will hit as early as three days in advance. The data is available in near real time mode (within 3 hours) through www.nrsc.gov.in, according to Dr Raj Kumar, Head of Oceanic Sciences Division, in Space Application Centre.

Links and Sources;

Geospatial World  , Wikipedia,

Southeast Asia Experiencing Greatest Biodiversity Loss

Posted: September 24, 2011 | Author: | Filed under: BIODIVERSITY | Leave a comment »

One of the most exotic and wild places on Earth has been undergoing an unprecedented loss in biodiversity during the past 50 years. As these nations in the region became industrialized and their populations boomed, their once pristine forests have fallen rapidly. The deforestation is occurring for agricultural use, palm oil plantations, timber harvesting, and various other human uses. As the forests go, so do the species which dwell in them. In a new study published by researchers from the University of Adelaide in Australia, it was found that this region has experienced the greatest loss of biodiversity in the whole world.

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Indonesia develops NSDI using cloud computing

Posted: September 20, 2011 | Author: | Filed under: GIS | 1 Comment »

Indonesia’s National Coordinating Agency for Survey and Mapping, BAKOSURTANAL, is taking its GIS initiatives to a whole new level by developing its National Spatial Data Infrastructure (NSDI) using cloud computing technology. This initiative aims to provide accurate and reliable geospatial information to government agencies and the general public.

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Residents of UP,India shaken up by mild quake tremor

Posted: September 18, 2011 | Author: | Filed under: India, News, seismic activities | Leave a comment »

Panic gripped people in Uttar Pradesh when an earthquake said to be measuring 6.8 on the Richter scale with epicentre in Sikkim jolted north India at 6.17 pm on Sunday.

The state Meteorological department described the quake as of “moderate intensity” in UP. It has not ruled out the possibility of after shocks. Earlier, on September 7, tremors had hit some areas of UP adjoining Delhi. However, on Sunday no causality of any kind was reported till reports last came in. State Met director, JP Gupta said that after shocks can occur in next 24 hours.

The people in the Lucknow also felt the tremors for 30 seconds. Initially, people could not realise but later came out in open space leaving offices and home when they felt the tremors. The impact was more visible in the high rise buildings. But at some places, people did not feel anything and came to know about the quake later through news channels. Similar reports were received from Kanpur, Varanasi, Allahabad, Meerut and Gorakhpur.

Significantly, the city does not have any seismometer to record earthquake. A senior officer of the earthquake division, at the regional office of Geological Survey of India (GSI), Lucknow, said that they rely on data of the Meteorological department.

Geologist Dhruvsen Singh, also faculty in the department of geology in Lucknow University, said that there is no seismometer in the state anywhere to measure earthquake. In some research institutes, small seismometers have been installed purely for research. The geology department of Lucknow university also has a seismometer installed by National Geophysical Research Institute, Hyderabad, for research activity.

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Quake of Magnitude 6.6 quake hits Japan

Posted: September 18, 2011 | Author: | Filed under: News, seismic activities | Leave a comment »

An earthquake of magnitude 6.6 hit Japan on Saturday 126 km (80 miles) east-southeast of Hachinohe, off the east coast of Honshu island, the USGS reported.Japan’s NHK state broadcaster said there were no immediate reports of damage and no tsunami warning was issued after the earthquake struck at 1926 GMT.

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Roman port discovered in Wales

Posted: September 12, 2011 | Author: | Filed under: Archaeology, inventions, Reblogged | 1 Comment »

Archaeologists digging on the banks of the River Usk near the Roman fortress of Caerleon in South Wales have uncovered the remains of what is only the second Roman port ever found in Britain. The other is in London, and it was a commercial port that appears to have gone up haphazardly over time as individual merchants built docks for their own needs. The Caerleon port is a single structure, most likely built to supply and move the legions stationed at the fortress. The Cardiff University team has found in relatively good condition the main quay wall, jetties, landing stages and docking wharves next to a group of several Roman buildings they discovered in a dig last year.

 The fortress was built in 74-75 A.D. during the final push under Julius Frontinus to quell the feisty local tribe, the Silures. Claudius’ troops first invaded in 43 A.D., remember, so the Welsh had been giving Rome the pointy end for 30 years by the time the r Legio II Augusta quartered permanently at Caerleon. Historians previously thought that Roman troops had built their own roads then walked them to Wales, but the discovery of the port suggests that the front lines against the Silures were supplied far more promptly and safely by river. During the four years that Julius Frontinus was governor of Britain (74-78 A.D.), he not only built the fortress of Caerleon and, presumably, its port, but he also established a series of smaller forts 10 or so miles away from each other to house auxiliary troops. This network would have relied on the headquarters for supplies, so all the more use for a functional water route. In what is probably a coincidence but a cool one, Frontinus is most famous today as the author of De Aquaeductu Urbis Romae, a comprehensive two-volume report of the aqueducts of Rome written when he was appointed Water Commissioner by emperor Nerva in 95 A.D.  He lists every aqueduct, its history, size, condition, discharge rates, water quality and source. He mapped the entire water system, set up regular maintenance to prevent leaks and ensure clean and even delivery, and he tracked down and eliminated an enormous number of illegal taps on the lines where local landowners and merchants had connected their own pipes to the main channel to divert water for their selfish needs. The Guardian has an excellent digital rendering of the port and fortress that it won’t let me embed because it’s mean.

From The History Blog 

New Understanding of Animal Communication at Oceans by Miami Scientists

Posted: September 10, 2011 | Author: | Filed under: BIODIVERSITY, oceans, opinions | Leave a comment »

Understanding animal communication has long been a fascinating and vast area of research for those who dare to welcome the challenge. Some species use body language to express their message while others use calls and loud noises. In fact, some animals communicate in frequencies that are inaudible to humans, either above or below our hearing range.But how do critters on the ocean floor use communication to fend off predators, attract mates and protect their homes? This was the question six scientists, including two students from the University of Miami Rosenstiel School of Marine & Atmospheric Science, Erica Staaterman and Austin Gallagher set out to answer. Their destination was the muddy water off the coast of Catalina Island, California. Their subject was the California mantis shrimp Hemisquilla californiensis, a benthic crustacean that measures 8 – 10 inches.

The study uncovered the fact that mantis shrimp made noise, each individual seeming to have its own ‘voice.’ The males made rhythmic ‘rumbles’ in groups of three that may help to attract females to their burrows or defend their territories against neighboring males.

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Important New Ways that Colleges Are Conserving Water

Posted: September 10, 2011 | Author: | Filed under: Guest Post, water | 2 Comments »

Guest Post by Tim Handorf

Water is a precious resource, and although it flows freely from the tap, it’s not infinite. Green campus lawns, clean cafeteria plates, and even air conditioned dorms don’t happen without using lots of water. As major institutions, colleges are serious users of water, and although some don’t yet recognize the need to conserve water, many of them do. In fact, college campuses are home to some of the most innovative ideas for water conservation, implementing water management technology, smart conservation policies, and more. Read on to find out about 40 great ways colleges are putting great minds to work on water conservation.

Cal State-LA technology

Using a wireless water management service, Cal State-LA was able to lower their water bills and reduce water usage by about 27 million gallons in 18 months. The system also saves valuable staff time and adjusts to weather changes, turning off water before it rains.

  • A new low flow standard

    The Association for the Advancement of Sustainability in Higher Education reports that low flow showerheads and faucets, as well as low water volume toilets and urinals are standard practice for US colleges.

  • Dual flush toilets

    In addition to low flow toilets, colleges like Harvard are also using dual flush toilets, which allow toilets to use less water unless deemed necessary by their users.

  • Recycling rooftop rainwater

    Drexel University turns rainwater into a resource rather than waste. Instead of sending it down the pipes to treatment plants, Drexel collects rainwater for non-potable uses, including toilet flushing, landscaping, and gardening.

  • Cutting back on car washing

    Colleges make use of many vehicles on and off campus, and those vehicles need to be washed, but not frequently. Schools like the University of Washington have cut back on car washing in their motor pools to save water.

  • Using campus resources

    Large campuses may have access to creeks and wells on their land. At Stanford University, almost 75% of water used for irrigation comes from water sourced on Stanford’s own land.

  • Going trayless

    Many colleges are ditching trays in their cafeterias, cutting food waste, conserving water, and even keeping the “freshman 15″ off new students. At Williams College alone, the college is saving 14,000 gallons of water each year by eliminating trays at one of four campus dining halls.

  • Landscaping with drought-tolerant plants

    At Saint Mary’s College, drought-tolerant plants have been put in place, including oleander, lavender, and nadina, with drought-tolerant plants making up about 95% of campus plants.

  • Installing water misers

    Schools like Stanford have made use of water misers on autoclaves in the Medical School and research buildings. Instead of having water running 24 hours a day on the devices, misers sense when the water is needed and when it is not. This measure alone has helped to reduce water usage in these buildings by over 50%.

  • Educating students

    At UC-Santa Cruz, students arriving on campus will learn about water conservation in their orientation meetings, and the campus offers dorm room usage audits as well.

  • Removing bottled water

Instead of allowing bottled water as an option at campus events and at dining facilities, colleges like Harvey Mudd College are selling or providing refillable water bottles to faculty, staff, and students.

Coolers and other equipment using once-through water cooling systems are being replaced with ones that reuse cooled water, saving not only water, but electricity and gas as well.

At Stanford University, they have recognized that university water usage doesn’t end off campus. Faculty and staff have their impact in private homes as well. With the Water Wise House Call program, the university has been able to manage water usage off campus by providing information and resources to faculty and staff.

  • Recycling carpet

    Carpet doesn’t sound like a big water waster, but at Oberlin College, they’ve calculated their savings from recycling carpet. By recycling 177,057 square feet of used carpet, they’ve saved 112,136.1 gallons of water, in addition to 1,227,418,143 BTUs of energy.

  • Natural thawing

    Some schools previously thawed food using running water. Instead, colleges like Evergreen State have implemented better planning, and are able to thaw all food products naturally without the use of running water.

  • Leak detection technology

    Some schools employ water conservation technology that includes leak detection, allowing them to identify and correct leaks that exist on campus.

  • Updated laundry rooms

    Colleges are upgrading to high efficiency front loading washers, and becoming even more energy efficient by using technology that allows them to monitor the status of the machines. At Canisius College, 755,638 gallons of water have been saved since 2006.

  • I Heart Tap Water

    UC-Berkeley’s I Heart Tap Water campaign promoted tap water as the beverage of choice for the campus. The university credits the campaign’s success to the testing of more than 450 water fountains on campus to ensure water quality. The program has reduced campus usage of plastic water bottles on campus by at least 25%.

Colleges are using cisterns to harvest rainwater. At Harford Community College, they capture rooftop runoff in an 80,000 gallon cistern to use in an evaporative cooling tower.

  • Leak reporting

    Dripping faucets can waste more than 600 gallons a year, and running toilets waste more than 131,000 gallons. On many college campuses, students, faculty, and staff are encouraged to report any leaks that they see. Doing so can alert the maintenance staff to undiscovered sources of water waste that can be resolved easily.

  • Hand sanitizer installation

    Duke University and many others have cut down on water used for sanitation purposes by installing hand sanitizers in bathrooms and other common areas. For quick sanitation purposes, a full hand wash using water is not needed, and alcohol-based sanitizer can be used instead.

  • Smart flushing

    In addition to low flow and dual flush toilets, schools are updating with automatic eye flushers. These toilets flush according to the length of time a person is sitting on it, with a 1.1 gallon flush for less than 65 seconds, and 1.6 for 65 seconds or more.

  • Laundry education

    Tufts reminds students to practice sustainable laundry techniques. Using a flyer, students are educated on using cold water options for washing clothing.

  • Increased irrigation ponds

    At Duke University, they are taking advantage of more natural water storage by increasing the size of irrigation ponds on their golf course. This water can be used for toilets, landscaping, and more.

  • Water free urinals

    Many colleges, including Vanderbilt University, are installing water-free urinals, which do not flush. Instead, the urinals use liquid chemicals and gravity, saving up to 40,000 gallons of water each year.

  • Water use monitoring

    Enhancing awareness of water usage can help conservation efforts, making those who consume water more careful in their usage. Several colleges, including UC-Santa Cruz, have shared water use data publicly and within their community to spotlight conservation of water.

  • Watering at night

    At lots of schools, watering was completed manually during the daytime, but more recently, colleges have implemented smart irrigation systems that water during the evening or early morning hours, saving evaporation, as well as overspray.

  • Native plants

    Colleges like Centralia are switching to native plants, which need less water and maintenance due to their indigenous status.

  • Rooftop vegetation

    To reduce the passage of rainwater into the sewer system, colleges are installing green roofs, which feature vegetation that consumes a large amount of water before running off. These systems also help to keep the top floor of buildings cooler during hot months, and insulated from cold temperatures and icy winds in the winter.

  • Reduced power washing

    Everyone likes to see a sparkly clean college, but many schools are recognizing that they don’t need to power wash as often as they have in the past. At the University of Washington, power washing has been reduced to the removal of graffiti and slippery materials only.

  • Simple reminders

    Using stickers, signs, and other awareness tools, schools are placing simple reminders in high water usage areas, such as busy restrooms. These reminders can help students be mindful about their water usage.

  • Purchasing Energy Star equipment

    Dishwashers, washing machines, and other water-consuming appliances can make a big difference in water usage, especially on a college sized scale. Schools like Boston College are replacing their old equipment with new, more energy efficient machines, cutting water consumption by 50%.

  • Updated facilities equipment

    Water cooled compressors, single pass chillers, cooling towers, and more often use water, and not always efficiently. Schools like the University of Washington have identified water wasting equipment and updated them, such as replacing water cooled compressors with air cooled ones.

  • Drought-tolerant grass

    Schools are adopting the use of grass that doesn’t need to be watered or mowed often. At UC-Davis and UC-Riverside, a new strain of grass, UC-Verde, was created. This grass needs only 25% the amount of water used for typical turf grasses.

  • On-demand hot water heaters

    Residential buildings may have their hot water heaters upgraded to tankless on demand models. At Dartmouth, these heaters are used to save water while students wait for the water to heat up.

  • Removing lawn areas

    Maintaining lawn areas typically means keeping up with watering, but at Scripps College, they may not have to deal with it as much. The college is considering removing lawn areas where appropriate, reducing the amount of water needed to maintain campus lawns.

  • Water coolers and taps

    With the use of water coolers, students, faculty, and staff can fill up reusable containers instead of buying bottled water. Schools like Dartmouth have employed the use of Brita pitchers and point of service units that dispense filtered (and sometimes even flavored) water.

  • Water recycling washing machines

    At Middlebury College, soiled aprons and chef jackets go through to wash and rinse cycles, which ordinarily would be wasteful. But using a water recycler, the college is able to capture the rinse water for the next wash cycle.

Source

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