CROATIAN CENTER of RENEWABLE ENERGY SOURCES: BATS VS WIND TURBINES by CCRES

Sunday, April 10, 2011

BATS VS WIND TURBINES by CCRES

CROATIAN CENTER of RENEWABLE ENERGY SOURCES

Dead bats are turning up beneath wind turbines all over the world.

In the push to develop new forms of sustainable energy, the wind power industry is at the forefront. Turbines that harness the power of wind already serve as effective power sources across the globe, and this proven effectiveness has led to vast increases in the number of turbines currently under construction. The general impact of wind turbines on the environment is likely far less than that of conventional power sources. However, recent evidence shows that certain species of bats are particularly susceptible to mortality from wind turbines. Bats are beneficial consumers of harmful insect pests, and migratory species of bats cross international and interstate boundaries.

Dead bats are turning up beneath wind turbines all over the world. Bat fatalities have now been documented at nearly every wind facility in North America where adequate surveys for bats have been conducted, and several of these sites are estimated to cause the deaths of thousands of bats per year. This unanticipated and unprecedented problem for bats has moved to the forefront of conservation and management efforts directed toward this poorly understood group of mammals. The mystery of why bats die at turbine sites remains unsolved. Is it a simple case of flying in the wrong place at the wrong time? Are bats attracted to the spinning turbine blades? Why are so many bats colliding with turbines compared to their infrequent crashes with other tall, human-made structures?

Although these questions remain unanswered, potential clues can be found in the patterns of fatalities. Foremost, the majority of bats killed by wind turbines are species that rely on trees as roosts throughout the year and migrate long distances; we call these species “migratory tree bats.” Currently, migratory tree bats compose more than three quarters of the bat fatalities observed at wind energy sites. The other striking pattern is that the vast majority of bat fatalities at wind turbines occur during late summer and autumn. This seasonal peak in fatalities coincides with periods of both autumn migration and mating behavior of tree bats. Seasonal involvement of species with shared behaviors indicates that behavior plays a key role in the susceptibility of bats to wind turbines, and that migratory tree bats might actually be attracted to wind turbines.

Despite patterns indicating that bat fatalities at turbines are somehow associated with migration and mating behavior, and that attraction may occur, these hypotheses have not been tested. At present, it is unclear whether bats killed by turbines are local residents, migrants moving through the area, bats actively mating, or some combination of these things. Further complicating matters is the fact that some of the species that die in smaller numbers at wind turbines are not known to migrate, although migratory habits of many bat populations are unknown and some of these species may actually do so. Addressing these important topics is crucial to future efforts aimed at mitigating the impact of wind turbines on bat populations. Knowing whether most of the bats killed by wind turbines are actively migrating, mating, or attracted to turbines will make it easier to direct effective mitigation efforts and assess risk before turbines are built.More info at http://solarserdar.blogspot.com.

The USGS is well-poised to answer questions regarding tree bat migration, behavior, and geographic origins. A cross-disciplinary (biology, geology, and geography) approach has put USGS scientists at the forefront of research into bat migration, behavior, and distribution (see Paul Cryan publications). For example, prior work by the USGS on the three bat species that die most frequently at wind turbine sites in North America has provided the most comprehensive picture, to date, of their migratory movements across the continent. These distributions have been mapped, as documented in the following links:

Seasonal distribution of hoary bats (Lasiurus cinereus) [WMV format: 1.8 MB]

Seasonal distribution of silver-haired bats (Lasionycteris noctivagans) [WMV format: 1.7 KB]

Seasonal distribution of red bats (Lasiurus borealis and L. blossevillii) [WMV format: 1.9 KB]

Stable hydrogen isotope analysis of bat hair as evidence for seasonal molt and long-distance migration

One research tool that is particularly well-suited to studying the origins of bats killed at wind turbines is stable isotope analysis. USGS scientists recently pioneered the application of stable hydrogen isotope analysis to the study of migration in terrestrial mammals and proved the efficacy of the technique for studying the continental movements of bats. Coincidentally, this groundbreaking research focused on the very same species of bat (the hoary bat, Lasiurus cinereus) that is killed most frequently at wind turbine sites across North America. Efforts are now underway at USGS to expand the existing framework of stable isotope data on migratory tree bats and apply this technique toward uncovering some of the mystery surrounding bat fatalities at wind turbines.More info at http://solarserdar.blogspot.com.

Continuing on this prior trajectory, USGS scientists at the Fort Collins Science Center developed an active research program to investigate the causes and consequences of bat fatalities at wind turbines. Our specific focus is on (1) determining the geographic origins of killed bats and (2) assessing the potential roles of mating and feeding behaviors in the susceptibility of tree bats to deadly encounters with wind turbines. With expertise and experience studying bat migration and behavior, combined with an existing infrastructure that promotes collaboration between disciplines, the USGS is well-equipped to effectively address the problem of bat mortality at wind power facilities. Only through further research will we make progress toward minimizing the impact of this new form of sustainable energy on our Nation’s wildlife.

To learn more about this work or opportunities to collaborate, contact

Paul Cryan
USGS Fort Collins Science Center
2150 Centre Ave., Bldg. C
Fort Collins, CO 80526-8118
Tel. 970.226.9389
Fax 970.226.9230
Email cryanp@usgs.gov

More info at http://solarserdar.blogspot.com.

CROATIAN CENTER of RENEWABLE ENERGY SOURCES ( CCRES )

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Zeljko Serdar

	Meet a fearless child, a revolutionary teen, an irreverent youth, father of 2, entrepreneur, blogger, investor, humanitarian, president and CEO at CCRES Dedicated to advancing energy efficiency as a means of promoting both economic prosperity and environmental protection.Working to harvest this knowledge. The pioneering experience of corporations, governments and financiers will be captured, analyzed and made available for others to learn from. HRVATSKI CENTAR OBNOVLJIVIH IZVORA ENERGIJE
	HCOIE

	Edukacija i savjetovanje o korištenju obnovljivih izvora energije organiziranjem tečajeva, radionica, tribina, seminara, kongresa i drugih skupova te putem medija; suradnja s domaćim i međunarodnim institucijama u svezi obnovljenih izvora energije; povezivanje gospodarstvenika, znanstveno-istraživačkih institucija, lokalnih zajednica, tijela državne uprave i ostalih subjekata na projektima koji koriste obnovljive izvore energije.

Project CCRES AQUAPONICS

Course Overview: Whether you are a beginner, a backyard hobbyist, a homesteader or a skilled professional wanting to start a career in Aquaponics this course has something to offer. This course is intended to provide people with the best all inclusive training, hands-on experience and cutting edge methods of Permaculture based Aquaponics available anywhere! Wether you want to grow food for you and your family, a small business or a fully commercial operation this course will be sure to give you the tools, information and experience you will need to be successful in what ever Aquaponic endeavor you are interested in. At a time of global climate change, depletion of resources, pollution of water and huge losses of top soil worldwide, there has never been a more important time to learn about CCRES Aquaponics!“Imagine a technology that produces healthy organic food, clean water, and renewable energy all at the same time. We call it CCRES AQUAPONICS,”

PROJECT CCRES SPIRULINA

The ongoing support from the private investment community speaks to how strongly they believe in the development of Green Crude as an alternative fuel resource, especially ability to commercialize it,” CCRES. Few consider seaweeds as a viable source of energy and protein for terrestrial animals (at least until their cost becomes more attractive). Macro-algae have been shown, however, to possess several functional properties, including those of a functional fiber, with immune-stimulating and prebiotic effects. Today, marine algal extracts are used as an additive in pig and poultry diets with promising results. Furthermore, micro-algae have been shown to contain high levels of beneficial lipids that can be used in layer and sow diets as a source of omega-3 fatty acids. Finally, both types of algae are used as an active component in clay-based anti-mycotoxin agents. For example, the treatment of clay with a macro-algal extract has been shown to increase the reactive surface of clay up to eight times. Croatian Center of Renewable Energy Sources (CCRES) offers several solutions that support the nutritional part of the production system. CCRES solutions combine algae feed additive products with their services, e.g. gut quality scoring, product application systems and customised dosing advice.

PROJECT CCRES ALGAE BIOFUEL

Given the right conditions, algae can double its volume overnight. Microalgae are the earth’s most productive plants –– 10 to 15 times more prolific in biomass than the fastest growing land plant exploited for biofuel production. While soy produces some 50 gallons of oil per acre per year; canola, 150 gallons; and palm, 650 gallons, algae can produce up to 15,000 gallons per acre per year. In addition, up to 50 percent (or more) of algae biomass (dry weight) is comprised of oil, whereas oil-palm trees—currently the most efficient large-scale source of feedstock oil to make biofuels—yield approximately 20 percent of their weight in oil.

CCRES Research facility, Sveti Rok, Croatia

Project Type Rural, Intentional Communities, Community, Demonstration, Educational Project Summary At the CCRES Research Facility, we are working with farmers who are converting their working farmland into agroforestry operations. The CCRES Program addresses the need to better understand and implement agroforestry practices on a commercial scale. As these operations grow, so too will the need for industrial infrastructure and support. Project Description The apprentice roles at CCRES Research facility, in Sveti Rok, Croatia are suited to folks who are dedicating their lives to a career in regenerative agriculture. Whilst this farm is a bustling hub for learning and practice, we expect high standards in both work ethic and your ability to work as a beneficial team member. We work, live, learn and play together in quite close quarters during the season, and your attitude and aptitude are the most important qualities behind getting the most from this experience. People that get the most from their time with us tend to have the “get it done” attitude, are self-starting, communicative, teachable, positive solutions focused, dependable and take-responsibility for what they are managing. We are looking for very pragmatic folks that are good with their hands and tools, who are situationally aware and ready to get their hands dirty wherever needed on the farm. Environmental impact Less human influence means natural processes have a chance to help improve the natural environment and restore nature. Wildlife species can come back and experience less conflict with humans, and food chains can restore. Dynamic, mosaic landscapes can develop driven by large herbivores and large carnivores, supporting species of a wide range of open/semi-open habitats. Socio-economic impact New businesses can be developed based on wilder landscapes and wildlife comeback, offering new and different products. Provision of new job and income opportunities. Social coherence and local society can be enhanced if new local businesses build networks and generate multiplier effects. Reduced dependency on subsidies. Cultural impact Younger people and families returning to the countryside looking for new opportunities, bringing new life into rural communities. Local/regional branding of areas and products providing new identities and local pride that are nature/wildlife related. Cultural heritage and traditional skills reinvigorated and in a different setting.

Interview with Mr Zeljko Serdar, CCRES

PROGRAM BENEFITS FOR PROTÉGÉ A Protégé receives a wide range of business development help from their Mentor, including: Technical, financial management, and developmental assistance to gain the knowledge, skills, and capabilities Advice and mentorship on program and project management, information technology, business equipment, and workspaces; Long-term relationships with small and/or large businesses to form teaming arrangements and/or joint ventures. PROGRAM BENEFITS FOR MENTOR There are many benefits for a Mentor helping a Protégé develop their business, including: Helping small businesses and minority institutions of higher learning expand their capacity through developmental and technical assistance; Utilizing the unique/specialized skills of the Protégé and shortening the learning curve of bringing on a new subcontractor; Identifying subcontractors and streamlining the procurement process. page 62-63

CROATIAN CENTER of RENEWABLE ENERGY SOURCES

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Sunday, April 10, 2011

BATS VS WIND TURBINES by CCRES

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