Monday, October 22, 2012

Malaysia jumps to 25 in environmental index

FROM 54 in 2010: Comprehensive act allows citizens to act as eyes and ears of ministry

KUALA LUMPUR: A YALE-COLUMBIA ranking has given Malaysia a big jump in terms of environmental management in its 2012 Environmental Performance Index.
The country is now placed in the 25th position, a huge leap from its 54th recorded in 2010.
This came as the nation introduced a more comprehensive Environmental Quality (Amendment) Act 2012 which allows the ordinary man on the street to be part of the environmental watch group and report cases ranging from open burning to toxic waste disposal.
Whistleblowers are also given incentives by the Natural Resources and Environment Ministry if they come forward to report environment breaches.
Natural Resources and Environment Minister Datuk Seri Douglas Uggah Embas said the lack of enforcement officers had restricted the ministry from getting enough evidence to prosecute environmental offenders.
"We need everyone's cooperation. We have limited officers, so, we appeal to the public to come forward and become the ministry's eyes and ears," he said after launching the National Environment Week at Taman Tasik Titiwangsa here yesterday.
"Action will be promptly taken as we are serious about acting against activities which damage the environment."
Amendments to the act also provide anonymity and protection to whistleblowers.
The Environmental Quality (Amendment) Act 2012 was gazetted on Aug 16 and is expected to be fully enforced by Jan 2 next year.
The amendments to the original Environmental Quality Act 1974 now provide the director-general power to issue stop-work orders on projects that damage the environment, which was previously solely under the minister's purview.
For a better enforcement mechanism, officers in the environment department also have the power to arrest those who commit environmental offences and hand them over to a police station.
Fines for environmental offences were also increased from RM100,000 to a whopping half a million ringgit.
"Overall, the amendment of the act focuses on strengthening the management of the Environment Impact Assessment.
"It also provides for a more proactive enforcement mechanism so that the development projects do not harm the quality of the environment and the health of the people."
Present at the launch was Douglas' deputy, Tan Sri Joseph Kurup, ministry secretary-general Datuk Zoal Azha Yusof and other senior officials.
Datuk Seri Douglas Uggah Embas (front, left) and his deputy, Tan Sri Joseph Kurup (front, right), taking part in a calisthenics programme at the launch of the National Environment Week in Taman Tasik Titiwangsa. Pic by Nik Hariff Hassan


Read more: Malaysia jumps to 25 in environmental index - Letters to the Editor - New Straits Times http://www.nst.com.my/opinion/letters-to-the-editor/malaysia-jumps-to-25-in-environmental-index-1.160374#ixzz2tZ9GMwEG

Wednesday, October 17, 2012

INCINERATORS: Have waste prevention, recycling instead

17 October 2012

THE Consumers' Association of Penang (CAP) is frustrated with the government's continued push for incineration.

Incinerators burn up and squander valuable resources, produce toxic emissions and residues, pose a financial burden to the public, and compete with waste prevention and recycling programmes that could have created jobs and benefited local economies.
Housing and Local Government Minister Datuk Seri Chor Chee Heung has stated that an international request for proposals will be issued by the government for three incinerator plants to be built in Malacca, Johor and Kuala Lumpur.
In the past, proposals to build incinerators in Kampung Bohol, Puchong; Broga, Selangor; Malacca and Cameron Highlands had met with public protests which led to a few proposals being scrapped.
Attempts to build incinerators in Penang had also been quashed by communities and non-governmental organisations from the initial stages. These groups have also been active in promoting source separation, reusing, recycling and overall waste minimisation.
CAP has been demonstrating composting of household organics and agriculture waste to consumers and farmers. We also promote a sustainable consumption and lifestyle, raising awareness of the general public on their purchases and disposal impacts to the environment and public health.
The Green Crusaders -- Don Theseira and Mylene Ooi -- a couple from Penang, travel all over the country to demonstrate how to move towards zero waste.
The government is reportedly looking at removing recyclable materials from waste, thus reducing waste by 40 per cent. Another 40 to 50 per cent of discards is organic waste which can be composted at source.
We urge the government to adopt and implement policies that will prevent waste at source, and intensify recycling and composting to ensure a healthy environment.


Read more: INCINERATORS: Have waste prevention, recycling instead - Letters to the Editor - New Straits Times http://www.nst.com.my/opinion/letters-to-the-editor/incinerators-have-waste-prevention-recycling-instead-1.158148#ixzz2tZ7ApQlG

Wednesday, October 10, 2012

Green Technology: Feeding the population without killing the planet

An increasing population has always meant that at some point access to food would be restricted. Tina Carmillia discusses how technology may have not always been the smartest choice, but in hindsight (and smarter application) may hold some of the answers we are looking for today.


Achieving food security means that ‘all people at all times have access to sufficient, safe, and nutritious food to maintain a healthy and active life’, according to the World Food Summit of 1996.
The Food and Agricultural Organisation (FAO) in its joint report with the Organisation of Economic Cooperation estimates that agricultural output growth will slow to an average of 1.7 per cent annually over the next decade. This will increase concern for food security, as well as drive up food prices.
For the millions of people living in poverty worldwide, high food prices, on top of an increase in fuel prices, cause great hardship. The first of the Millennium Development Goals is to eradicate extreme poverty and hunger. Unfortunately, today, one in eight of the seven billion people on earth still do not get enough food to eat every day.
The rise in demand for food is further fuelled by population growth, increase in the average human lifespan, competition for agricultural land from the growth of biofuel demands, and climate change, among other factors. Food prices are reliant on climatic conditions as it greatly affects the harvest yield.
For example, drought in parts of east Asia and Australia in 2008 cut back rice production that subsequently caused a surge in its price. Oil prices also contributed to the spike in food prices as it heightened the cost of fertilisers, food transport, and industrial agriculture practices.
In order to feed everyone sufficiently, the FAO projected that the world must raise food production by 70 per cent from the current rate to support a global population rise of 30 per cent by 2050. The world population is expected to hit nine billion by then. Thus, the agriculture industry has to focus on increasing sustainable productivity growth.

Green Revolution
In agriculture and animal husbandry, the Green Revolution post World War 2 popularised the use of conventional hybridisation to increase yield. It was Norman Borlaug, an American agronomist, who played a pivotal role in the makings of the revolution.
The period between the 1940s and the late 1970s was dedicated to research, development and technology transfer initiatives to increase agricultural production around the world. The Green Revolution spread technologies that although were already in existence, were not widely used outside of industrialised countries. This included the development of high-yielding varieties of cereal grains, expansion of irrigation systems, and the distribution of hybridised seeds, synthetic fertilisers and pesticides.
As a result, Mexico, which imported half its wheat before the Green Revolution, became self-sufficient and exported 500,000 tonnes of wheat by 1964. In the UK, where wartime food rationing continued into the 1950s, increased self-sufficiency from 30 per cent to 80 per cent between 1940 and 1980. India increased rice yields from two tonnes per hectare to six, and today is still known to be one of the world’s most successful rice producers. Globally, grain production increased by more than 250 per cent between 1950 and 1984 helping avoid widespread famine during the critical post-war period.
Today, because of its extensive use of pesticide necessary for pest control, the Green Revolution received some criticism for its impact on the environment as well as on human health. In the Indian state of Punjab for example, a comprehensive study has shown that the intensive use of chemicals and pesticide in the state’s farming activity has a direct relationship with the increased incidence of cancer in the region.
Despite having met its purpose of feeding the millions worldwide in the face of impending famine, a revolution of this magnitude came with a price. By the late 1980s, the works of the Green Revolutions saw a concerted disapproval from some sectors of the industry for its practices that is said to be damaging from an eco-development standpoint.

Is GM food the answer?
Genetically modified food has become increasingly important in the topic of food security. Genetic modification is achieved by adding a specific gene or genes, or by knocking down a gene in order to produce a desirable phenotype. Unlike conventional hybridisation, genetic modification can produce a plant with a desired trait faster because the rest of the plant’s genome is not altered.
Biotechnology and genetic engineering could be part of the solution to provide foods that can be grown in places where natural conditions are usually unfavourable. Foods can also be harvested with higher yields. This translates to lower food prices and greater availability.
Last year was the 16th year in which genetically modified crops have been commercialised. Globally, the commercial value of biotech crops grown last year alone is estimated to be RM40.2 billion, up from RM35.7 billion in 2010.
Last year, 19 of the 29 countries planting biotech crops were developing economies. The five leading developing countries are China, India, Brazil, Argentina, and South Africa. The most common biotech crops are staple food such as maize, canola, soybean, rice and potatoes. However, no genetically modified livestock have been approved to enter the market as yet.
Genetically modified foods are agricultural crops that have their DNA modified using genetic engineering techniques. This is usually done to introduce a new trait to the plant that does not occur naturally in the species. The most common traits introduced are to increase the size of the plant, to generate better nutrients, or resistance to herbicides, pests, diseases and environmental conditions.
Proponents of GM foods believe that biotech crops can help alleviate some of the concerns about food security in a number of ways. At the farmer-level, GM foods contribute food security and self sufficiency, including making food more affordable by increasing productivity and economic gains.
GM-based agricultural practices are also said to reduce the industry’s environmental footprint. Biotech crops are capable of higher productivity per hectare of arable land, which is a land-saving strategy to minimise deforestation and land clearing. Because crops are also genetically modified to withstand drought and other environmental pressures, it has also increased efficiency of water usage.
On top of that, it uses significantly less pesticide compared to conventional agriculture due to its resistance to pests. In a report by the International Service for the Acquisition of Agri-Biotech Applications, the accumulative reduction in pesticide for the period of 1996 to 2010 is estimated at 443 million kilogrammes of active ingredients, which is a saving of 9.1 per cent in pesticides. This figure is equivalent to a 17.9 per cent reduction in the environmental impact from pesticide use.
Nevertheless, GM food and the technology behind it is still intertwined with controversy. Surveys documenting public perceptions about GM food have shown that people are concerned about what goes into our bodies. As GM food is a new technology, there is a widespread desire for more information about the risks and benefits of GM food.
Some scientists and advocacy groups including the World Wildlife Fund and Greenpeace have been in the forefront to call for additional and thorough testing of existing GM food and technologies. Presently, several studies over the past decade have shown that consumption of GM food poses no higher risks than conventional produce.
Furthermore, a hidden crisis that could severely threaten food security may be present from biotech alterations as genetic erosion and genetic pollution can destroy unique genotypes. Without diverse genetic material, crops and livestock cannot be further hybridised to overcome more resistant diseases and climatic changes.
Critics also point out that GM-based farming can result in an increased income inequality and inequitable asset distribution. They argue that owners of large farms are the main adopters of the new technologies. Small farmers are either unaffected or even harmed because it results in lower product prices and higher capital costs.
Additionally, some scientists believe that genetically modified crops have not led to any substantial increase in food production. Instead, this group of researchers call for the use of conventional hybrid breeding, and making use of local knowledge of natural resources instead, such as the practice in some parts of the world where small farms were given the priority in its agricultural transformation process.

Home-grown solutions
The capacity of Africa’s agriculture to ensure food security is often in question. Apart from political instability in the region, the continent is frequently bogged by prolonged drought or erratic rainfall, both of which lead to devastating crop yield.
However, many small-scale farmers, with the help of their governments, are increasingly taking up irrigation infrastructures to counter the problem. Water management systems used in irrigation practices are critical to the improvement of food availability in Africa.
In central Kenya, for example, farmers along seasonal rivers turn to solar-powered water pumps to irrigate their farms as it is a cheap and environmentally friendly method for water management. The Kenyan government has recently launched a 10,000-hectare irrigation project in the Turkana region through public-private partnerships so that irrigation equipment is available to farmers at subsidised prices.
According to the Kenyan Ministry of Agriculture, 90 per cent of food consumed in Kenya is produced by smallholder farmers, among which irrigation practices have increased from 400,000 to an estimated 700,000 in the past two years. The trend is similar to a global inclination throughout the rest of Africa and Asia as climate change increases the uncertainty of rainfall.
Technology-based innovation has also strengthened food security in Africa. The mobile phone has become a revolutionising game-changer in Nigerian agriculture practices. It is being used not only to deliver weather information, but also the allocation of seeds and fertilisers to smallholder farmers.
These home-grown solutions to address local challenges contribute to the economic development of the country. Ultimately, achieving food security in Africa is a major cornerstone to the peace and stability in the region.
While Africa did not benefit greatly from the post-war Green Revolution, the technological advancement that brought about ingenious solutions to African farmers can be the key to attain food sovereignty in Africa. This can only happen with the investments from the state level and private sector to empower smallholder farmers to boost the agriculture of the country.

Investment crucial to scale up agriculture
In a recent White paper report of the Malaysian Agricultural Biotechnology sector by the Malaysian Biotechnology Corporation, self-sufficiency levels for agricultural produce in Malaysia have slowly risen. Part of this growth is contributed to the research and development activities from the biotechnology sector as well as the investments from the government into such efforts. The government has identified the sector as one of the key strategic sectors that will support the growth of the economy by leveraging on the strength of the country’s biodiversity and cost effective human capital.
In 2005, the country enacted the Malaysia Biotechnology Policy to achieve this growth. This is coupled with an allocation of more than RM2 billion under the Ninth Malaysia Plan to the biotechnology industry that would benefit agro-biotechnology research.
The prime minister, in his Budget 2013 speech, also announced the development and expansion of four new paddy granaries that will be located in Kota Belud, Batang Lupar, Rompin, and Pekan. A budget of RM147 million is allocated for the project. This effort will increase the total acreage of paddy granaries to 408,000 hectares and increase production by 104 tonnes from the current 1.8 million tonnes.
Malaysia, where self-sufficiency is at about 86 per cent when it comes to rice supply, is expected to strengthen its existing paddy granaries through an integrated and systematic paddy management system.
An additional RM120 million is also allocated for irrigation infrastructures. Fishermen in Malaysia are provided an incentive ranging from RM0.10 to RM0.20 per kilogramme of fish. This will encourage fish landings at licensed jetties nationwide.
While small farmers individually do not produce as much as large multinational agri-businesses, they remain crucial participants in food production and job creation. In Asia for example, the majority of the more than 200 million rice farmers cultivate less than two hectares of rice.

The future
Forecast of the future is far from comforting, with an expected lower output of maize production from the US, which is the world’s largest producer, as well as soybean and wheat from Russia in the coming year. The UN has also reported a jump in global food prices by 1.4 per cent in September to a six-month high as severe drought in the US cut grain harvests. Climate change is also affecting fisheries with a possible fall in fish stocks of up to 50 per cent in the coming decade.
High food prices pose a problem for governments around the world, as the Food and Agriculture Organisation issued a warning on the declining food security amid social turmoil in Syria and Yemen. Rising food prices have been a fundamental driver to the street revolutions in Tunisia and Egypt.
Unfortunately, the majority of the global society is still unaware of the great challenge it faces to feed the world sufficiently. Even more regrettable, a recent UN study showed that one third of food produced for human consumption goes to waste. According to ISAAA, in the next fifty years, the world will consume twice as much food compared to the beginning of agriculture 10,000 years ago.
There is a pressing need for collaborations in the local and global scale to invest in research towards a sustainable agriculture by combining technology and local tradition, and to improve resource management. This practice, also known as agroecology, requires the combination of the farmer’s ecological literacy of the local ecosystem and the enhancement of resources and technological innovation by the research community. This is necessary to keep the agriculture and fisheries practices inciting for the farmers or fishermen, and to encourage long-term productivity and efficiency, and spark a new form of ‘green revolution’.


Read more: Green Technology: Feeding the population without killing the planet - Extras - New Straits Times http://www.nst.com.my/nation/extras/green-technology-feeding-the-population-without-killing-the-planet-1.155111?cache=ynzfkhhlsup%3Fpage%3D0#ixzz2tZEhMyjt

Green Technology: Towards productivity improvements

Material Flow Cost Accounting (MFCA) is an environmental tool that was developed in Germany in the late 1990s and has been widely adopted in Japan. MFCA is applicable to all industries that use materials and energy, including extractive, manufacturing, service and other industries. It can be implemented by all organisations in any scale, with or without environmental management systems in place.
MFCA focuses on tracing waste, emissions and non-products, which help to boost an organisation’s economic and environmental performance. In MFCA, all input materials that are flowing through the production process can be traced, and the output in finished products and waste can be measured.
In addition, MFCA provides both internal and external benefits to an organisation by enabling it to make more profit with less environmental impact. A typical internal benefit is the strengthening of an organisation’s competitiveness, as MFCA delivers improvement in both profits and material productivity.
In order to standardise MFCA practices, the development and publication of ISO 14051 (published in September last year) was carried out. It will complement the ISO 14000 family of Environmental Management System standards (EMS) including Life Cycle Assessment (ISO 14040, ISO 14044), and Environmental Performance Evaluation (ISO 14031).
The inherent linkage with competitiveness and environmental protection is very suitable to the Malaysian situation thus making the MFCA practical and sustainable in the long term.
The Malaysian Productivity Corporation (MPC) has embarked on a pilot project of implementing MFCA in five model companies: Tokyo Ferrite (M) Sdn Bhd, Tenaga Cables Industries Sdn Bhd, Autokeen Sdn Bhd, KEU Transweld Sdn Bhd and Extremach Sdn Bhd. MPC together with the Asian Productivity Organisation (APO) and the Japan Productivity Centre (JPC) implemented this pilot project (27 Sept 2010 - 7 March 2012) and the cost saving of MFCA.
Currently, MPC is involved in implementing MFCA for seven more companies from the various economic sectors. This intervention phase is scheduled to be completed by next month. Activities on developing related services and activities are in line with MPC’s Enterprise Innovation Intervention Programme (EIIP) with technical assistance from both JPC and APO.
Developing productivity and innovation at enterprises will drive and raise the level of organisational productivity and innovation. This will, in turn, lower operating costs, boost competitiveness and increase real wage growth. This is one aspect of an overall strategy to enhance productivity and sustainability in long-term economic growth.
MPC is committed to continue with its involvement in promoting methodologies and techniques for sustainable development management in the various industries.
The efforts by MPC in this endeavor will ensure long-term sustainability of good environmental practices within the country, especially when they are integrated with the organisation’s objectives of improving productivity and quality.


Read more: Green Technology: Towards productivity improvements - Extras - New Straits Times http://www.nst.com.my/nation/extras/green-technology-towards-productivity-improvements-1.155109?cache=ynzfkhhlsup%3Fpage%3D0#ixzz2tZEPADvM

Green Technology: Green business for a green economy

People, planet, profit is the mantra being adopted by businesses in a move toward building a green economy. Scott Coney in his bookBuild a Green Small Business: Profitable Ways to Become an Ecopreneursets forth four criteria for a green business: Business decisions are based on sustainable principles, supplies environmentally-friendly products or services, greener than traditional completion, and has an enduring commitment to environmental principles in its business operations.
In a report Business Case for the Green Economy, Achim Steiner, UN Under-Secretary General and Executive Director of the United Nations Environment Programme, puts forward many examples of businesses that are turning out healthy profits while taking into consideration environmental and humanitarian factors.
An example quoted is how Kenya’s Equity Bank provides loans to farmers enabling access to water-efficient irrigation technology at a low interest rate. This has increased the bank’s profit by almost 30 per cent in a year.
An area that is a logical step towards a green economy is the energy sector. It is generally known that energy production, through the burning of fossil fuels is a major contributor of greenhouse gasses.
Greenhouse gas emissions have to be reduced by a massive 80 to 95 percent if global temperature increase is to be reversed. Producing green energy has not been economically viable in the past due to various factors globally including high cost, energy policies, perceived risks, and lack of infrastructure.
However, countries are beginning to push for renewable energy sources as technology is being improved and options like wind and solar are becoming increasingly viable. 
Encouragingly, in January last year, German policymakers released a plan to make the country’s electricity production system one hundred percent renewable by the year 2050.
Government decisions like that of Germany, paired with economic incentives and policies, will go far to grow green businesses involved in producing energy. In Malaysia the Sustainable Energy Development Authority Act 2011 and Renewable Energy Act 2011 was the start of a viable implementation and administration of the feed-in tariff mechanism.
Simplistically this system can be understood as one that allows an individual or company to sell renewable energy to Tenaga National Berhad for a fixed price. This is a step towards aiding businesses or individuals that produce energy via biomass, biogas, hydropower or solar photovoltaic technologies to have a more viable business.
As a result many companies are starting to invest in these alternative ways of producing energy. One of the challenges previously faced was the high investment cost of setting up solar panels. Whilst this is still a challenge, the various initiatives by the government, advancement in technology and also increase in demand for clean energy have gone a long way to make this a potentially profitable business.
In addition, SIRIM, the national industrial research and standards development organisation provides plenty of data through its various research projects, as well as technological backing for entrepreneurs wanting to not only get into the solar power business but many other green manufacturing options.
Green Innotech Sdn Bhd, SOL-lite Sdn Bhd and Solar Voltaic are some examples of the many companies that have boomed in Malaysia, providing services and products for solar energy production – a wise move for a country blessed with sunshine almost all year long.
More than just equipment, processes and technology that are obviously needed in support of a green economy — photovoltaic cells, pollution controls and sustainable company policies — businesses that were not typically green have also ventured into the field.
An example of this is ecopreneurs who are creating green fashion. These are clothes that are made ethically and ecologically while not compromising on profit, are produced by locals and support local enterprise.
Furthermore, the materials used are organic, recyclable and have not caused as much damage to the environment in its production compare to its un-green counterparts.
Green also means waste produced as a by-product in the production is well-handled. Giant Swesish fashion brand H&M has successfully launched their line of eco-friendly, sustainable clothing.
Comprising, organic cotton, hemp and linen as well as recycled wool, plastic and polyester. In Malaysia there are many organisations that have worked to bring indigenous and cultural clothing and accessory making techniques to mainstream shoppers. The next obvious move is for consumers to embrace these green fashion options.
Green business is a gamechanger in the sense that now SMEs and ecopreneurs have unprecedented opportunity to compete in the green economy. It is a new economic system where profit at any cost and majority marketshare is no more the most desired outcome.
Balancing the sustainabilty and social factors while maintaining a profitable business is how it must to be played moving forward.


Read more: Green Technology: Green business for a green economy - Extras - New Straits Times http://www.nst.com.my/nation/extras/green-technology-green-business-for-a-green-economy-1.155105?cache=ynzfkhhlsup%3Fpage%3D0#ixzz2tZEBPm2B

Green Technology: Inciting change within the individual

By Anushia Kandasivam 

Veteran speaker and passionate advocate of all things green, Matthias Gelber works tirelessly to get Malaysians to live more sustainably. The Green Man speaks to Anushia Kandasivam about his inspirations, goals and visions for the future.


The name Matthias Gelber has been floating around the green circuit for a while now. Those in the know refer to him as the ‘Green Man’.
A professional speaker, trainer and businessman, Gelber engages audiences around the country with his talks, seminars and workshops that include topics like green living, buying green and green investments.
Gelber has a master’s degree in environmental science from the UK, co-founded a German green building materials company, Maleki GmbH, started his own environmental consulting company dealing with sustainability issues related to natural resources, and was voted the Greenest Man on the Planet in 2008.
But his interest in the environment, environmental management and sustainability was sparked long before that.
Growing up in a small village in Germany called Lippe that had only about 500 people, playing in the forest or in the snow, he felt a connection with and a responsibility for Mother Nature from the earliest days of his youth.
“We were also educated in school to be citizens that make a positive contribution to humanity and the planet,” he says. “We grew up separating our waste, recycling and taking actions against acid rain that was damaging our forests.”
From that early age, it was clear to Gelber that he wanted to use his passion and work to help the planet. At that stage, however, it was not an easy path to take, as his father did not believe it was a good way to earn a living.
But he realised he had to follow his inner voice and seek out a path for himself that would make him happy, fulfilling his specific role on this earth. For that reason he studied chemistry and then earned his master’s in environmental science.
Gelber came to Malaysia under the Malaysia my second home programme. After 10 years in the UK, he says, it was time for him to live in a warmer climate. Malaysia has certainly benefitted from his presence; Gelber works with NGOs and volunteer movements such as EcoWarriors and Pertubuhan Pelindung Khazanah Alam Malaysia (PEKA) and also contributes to inspiring young people to live green and supports the emerging green technology industry, particularly in terms of initiatives that can make a big change for the better.
SHARING EXPERIENCE
Gelber’s talks are particularly effective because of the holistic approach he takes. He shares his own experiences — how he keeps his electricity bill around or below RM30, how we can all make our lives more positive and help rather than burden our planet.
He looks at what we buy -— the food, the electrical items, the vehicles, the houses — and questions if they are green, healthy, in line with lifestyles of health and sustainability (LOHAS).
And his talks, workshops and seminars do work. “I get good feedback from audiences. I sometimes have people comment that their way of doing things or how they live changed after listening to one of my talks or they tell me that the things I do and communicate reminds them to live green when they keep track of my actions on Facebook,” he says.
But he is still not satisfied: “Many people agree when they attend a talk or workshop that something needs to be done, but when they are back home nothing major changes. I want to see deep lifestyle changes. Only then we will see the transforming impact of a green society. That requires time and we need to start early with young audiences to move towards a green nation.”
The ultimate goal of his work, he says, is to enable everyone who listens to his talks have an ‘awakening’ that makes them ask ‘Am I a net burden to the planet or benefit? Is my lifestyle, what I buy, what I sell, what I invest my money into helping the planet or doing damage to the planet?’
There have been results: a number of people working in the green technology field have told him how they were inspired by his talks and his way of living. Better still, students have told him how they had previously thought that all this ‘green stuff’ was boring, but are now amazed at how exiting, relevant and important it actually is.
Engaging youth is vitally important, says Gelber. People are still motivated by economics, and it is still too profitable to waste and exploit. Therefore, it is critical that we make a green generation — a generation with green hearts.
THE MALAYSIAN AUDIENCE
While there is a growing interest in all things green in Malaysia, there is still a lot of room for improvement, particularly by putting theories in practice. There are too few people living green and too few events being run in a green manner, too few people are eco efficient or have a green purchasing approach, says Gelber.
Market forces and a strong green living education in schools are the keys to change. “The government and society must work hand-in-hand. Malaysia has some great policies, but it needs more action in implementation,” says Gelber.
“The energy policy should focus first on making Malaysia more energy efficient — there is a huge scope for Negawatts (less consumption),” he continues. “I am convinced that by 2020 solar energy from solar modules produced in Malaysia will be cheaper than nuclear power when you take the whole life cycle cost of nuclear (construction, operation, waste disposal, decommissioning) into consideration. The cost of solar power is on sharp downwards spiral whereas nuclear is going up due to the risks involved. I think this is very important for Malaysia to take into consideration.”
THE MAN IN THE MIRROR
Working in environmental management or in a similar green industry certainly requires passion and perseverance, as does keeping up day-to-day sustainable activities, agrees Gelber.
There will have to come a time when these activities are the norm. The countries with the highest cost for water, fuel and electricity tend to be the most efficient and the countries who have built green living into the education system and domestic household practise have made it the norm.
Soon, the days of heavy subsidies will be gone, and Malaysia will become a net importer of fuel. By this time, it is hoped that green education will be part of the wider curriculum in schools. But at the end of the day change starts with the individual, says Gelber. Ask yourself: Am I part of the problem or part of the solution? Is my life healing or destroying the planet?

For more information on Matthias Gelber and his professional speaking engagements, visit www.greenmanspeaks.com


Read more: Green Technology: Inciting change within the individual - Extras - New Straits Times http://www.nst.com.my/nation/extras/green-technology-inciting-change-within-the-individual-1.155103?cache=ynzfkhhlsup%3Fpage%3D0#ixzz2tZCz9KtR

Green Technology: Optimising water usage

MONIER is an industry leader in environmentally friendly roofing systems. Its two most significant innovations — the MONIER CoolRoof and the MONIER SolarRoof Systems — are not only aesthetically pleasing but also conserve energy and cool the interiors of a house.
The MONIER name is synonymous worldwide with energy efficiency, sustainability and ecological consciousness. Staying true to these fundamentals, the very foundation of its business philosophy, the company believes in optimising the full potentials of roofs so as to improve lives and homes.
In pursuing its on-going green agenda, MONIER is now venturing into the third ‘E’ in its energy efficient roofing solutions equation — environment, particularly the care and preservation of it. This is embodied in the latest offering from MONIER — the MONIER EcoRain Rainwater Harvesting System.
Why MONIER EcoRain?: Heavy downpours and floods during the monsoon seasons and convectional rain in the hot, dry months are all-too-familiar, oftentimes unwelcome, rainfall patterns that Malaysians contend with annually.
The MONIER EcoRain Rainwater Harvesting System takes full advantage of this situation by tapping into nature’s free resource when it is available in abundance. Water is collected, filtered and stored, and then recycled for use when it is scarce or occasioned by need. This facility from MONIER conserves water by supplementing piped water supply.
The MONIER EcoRain Rainwater Harvesting System is easy to install and simple to maintain. It provides a hassle-free and effective supply of harvested rainwater that saves water costs whilst helping the environment. Should its storage tank run dry during periods of heavy usage, the MONIER Rainwater Harvesting System automatically switches to the main water supply without any water supply disruption.
The quality of the harvested rainwater, however, is suitable only for non-potable use, for example, washing of vehicles, watering the plants and for flushing of toilets.
Benefits of MONIER EcoRain: The MONIER Rainwater Harvesting System has many benefits to a household:
• It acts as a convenient supplement to the main water supply in catering to household needs.
• It reduces utility bills as homeowners can now make full use of an alternative water source.
• It offers peace of mind to homeowners knowing that they have an independent supply of water during times of water shortage or rationing.
• It helps with the preservation of the environment, a universal campaign where building and homeowners and consumers can play a major role by the judicious use of and conservation of water.
Adding value to properties: Purchasing decisions are highly influenced by buyers’ preference for projects that promote sustainability of the environment. Amongst the in-demand green features that builders incorporate are energy and water efficiency technologies and rainwater harvesting systems in both new and old buildings.
The MONIER perspective: While rainwater harvesting systems can make homes more sustainable and reduce costs, the higher purpose, though, is conservation of the environment. MONIER shares these sentiments as its innovations are not just about energy efficiency and savings on electricity bills but advancing the global cause for sustainability.
The MONIER EcoRain, the latest addition that completes the MONIER family of E³ roofing solutions, reflects the company’s green direction in offering its consumers a comfortable and better living environment.

For more information, email roofing-malaysia@monier.com or visit  www.monier.com.my


Read more: Green Technology: Optimising water usage - Extras - New Straits Times http://www.nst.com.my/nation/extras/green-technology-optimising-water-usage-1.155101?cache=ynzfkhhlsup%3Fpage%3D0#ixzz2tZCl1RnW

Green Technology: The green dilemma and the human psyche



What is all the fuss with going green? Many recent articles, including those in this supplement, have spoken about huge government and private investments in solar panels, bio-products and save the trees campaigns. But what is the real perception of going green? How does perception influence your behaviour? Do you recycle? Would you bother separating trash? Spend extra money on biofoods? What do you truly value? Economic gain, a feel-good factor or the conservation of our natural ecosystem?

The individual
The unique factor about the ‘green’ dilemma is that it is a never before experienced phenomenon, which makes it difficult for the human mind to understand let alone cope with. Previous world problems such as peace, poverty and education have been dealt with for centuries, making solutions easier to be learned, grasped and implemented.
Despite this, barriers and obstacles still exist to such age-old problems, as one can imagine solving this environmental issue is not going to be a stroll in the park.
Another unique characteristic about the green dilemma is that it is a problem that needs consensus and mitigation from all parts of the world. Reason being, we are all part of the same planet, and as science has not revealed a way to inhabit Mars, or any other planet in the galaxy, we must find a way of containing our damaging ways before an irreversible catastrophe takes place.
Bearing this in mind, a famous Japanese psychologist, Masanao Toda, said, “This planet is the only one we have, hence we need to understand our inner psyche as there is no escaping this planet“.
Psychology allows us to comprehend the inner world of ourselves, which is pivotal to influence any form of change needed in behaviour towards climate change. As past international conferences such as the famous Rio Summit or post-Kyoto agreements have failed to reach consensus, and understandably so, what hope is there to the individual to change their ‘business as usual’ behaviour if there are no legally binding treaties to make us do so?

The group
Using empirical data from psychology’s vast research on motivation and behaviour, one can say all behaviour depends on intrinsic or extrinsic motivation. Simply put, intrinsic motivations are internal motivators that come from inside, which are usually non-tangible rewards, such as personal gratification or sense of achievement. Extrinsic motivations, on the other hand, are external rewards to increase desired behaviour, usually tangible, such as money or grades.
Knowing this and the unique aspects of the green dilemma, and combining human nature’s tendency to seek self-fulfilling interest, we can use the tragedy of the commons to try to understand the cognitive limitations we naturally have.
For instance, the tragedy of the commons is defined as a predicament that arises when a group of people sharing common limited resources will act rationally and independently based on own self-interest, depleting the shared resources even if it’s no one’s intention to do so.

How do we change?
In trying to change the public’s perception in engaging sustainable behaviour, it would be safer to place monetary concessions, such as no plastic bag day on Saturdays, causing people to pay if they need it or earn money recycling plastic bottles.
Being human, at times it is necessary to have certain incentives to nudge us in the right direction. In Malaysia for example, the government is paving the way to encourage start-up companies to delve into green technology and other such businesses. Unfortunately, interest in such schemes at most times has been low.
Such changes do indeed take time; perhaps combining them with a twist of passion and economic gain will be the catalyst for change needed in giving us that nudge.

Utopia or reality?
All is not lost; the flip side of this new paradox might just be what the doctor ordered for the spiralling crisis our world is going through.
Even with separate issues of financial crises, conflicts, terrorism and the seemingly never ending quest to end poverty, the new green dilemma seems to pose solutions for the wider dilemma humankind is facing.
As climate change and environmental issues have found ways of creating jobs through technological innovation and renewable energy solutions, this can perhaps lead to solving basic problems such as access to electricity, water and food.
For example, setting aside the rest of the world, there are still a large number of people in East Malaysia who do not have access to clean drinking water and electricity. Many ideas and proven solutions exist to solve such basic problems, which do not only provide electricity and water to the people, but also create jobs and sustainable living with independence and dignity — the basic right of every human being.
Private organisations, many of which are in Southeast Asia are still actively seeking funding to provide such solutions to those whose lives change due to such initiatives.
As we go on with our own lives, wondering about the next global issue to solve, wondering if we should bother bringing recyclable bags to the grocery store or simply how to make sense out of all this, perhaps the answer lies within us, the inner world of our psyche.

 The writer holds a bachelor‘s degree in psychology and a master‘s degree in international relations, specialising in climate change.


Read more: Green Technology: The green dilemma and the human psyche - Extras - New Straits Times http://www.nst.com.my/nation/extras/green-technology-the-green-dilemma-and-the-human-psyche-1.155096?cache=ynzfkhhlsup%3Fpage%3D0#ixzz2tZCTzb2K

Green Technology: Careers for a viable future


Electricians
An electrician works with the wiring, fixing, maintainance of electrical circuits, and devices. A highly skilled electrician also does the designing and aids in the development of electrically powered devices.
A green technology electrician should be open to the idea that he will be dealing with equipment and devices that are not limited to electricity as a power supply. The electrician’s skills will be needed in the building of green buildings, ensuring that energy systems are cost- and energy-saving.
A green technology electrician will also provide energy management advice to contractors and customers and also conduct energy audits. It will be necessary that they have the knowledge of not only conventional electrical fittings but also of the latest energy saving equipment and appliances.
Job opportunities for green technology electricians will increase greatly as more and more people move towards greener homes, and offices.

Geologists
As our world moves towards the adaptation of green technologies, greater opportunities arise for geologists. Geology is the study of the history, formation and development of the earth.
A geologist has a deep understanding of the earth’s physical make-up and the processes that it goes through such as earthquakes, floods, tsunamis and volcanic eruptions.
There are various fields that a geologist can specialise in such as environmental geology, petroleum geology and engineering geology. The use of green technology will call for the expertise of a geologist in exploring and understanding alternative energies, their benefits and disadvantages, locating these sources and formulating ways to harness these energies.
Geologists will also play an important role in determining natural resources that are abundant and sustainable and working to utilise these in the best possible way so that the mistakes of the past are not repeated. Geologists have the further role of research on the impact of mass use of renewable energy on the planet, and how these outcomes could influence living in a future world.

Environmental Scientists
Environmental science is the study of our environment, our relationship and interaction with other living and non-living things; it also studies the impact of human activities on the environment, and the delicate balance of ecosystems.
Environmental scientists have contributed immensely in helping us understand the detrimental effects of our activities and technologies on the environment. They have created awareness about global warming, greenhouse effects, air, water and land pollution. Their role in our society continues and in fact increases with the advent of the great green technology age.
Environmental scientists will play an important part in educating people on the concept of green technology, the need for green technology, its advantages and disadvantages and its impact on our environment. They will also help inventors and builders in evaluating the key areas that need green technology as a solution to prevent and remedy damage and pollution. Their expertise will also be needed in policymaking, administration of governments, and in education.

Science Writers
Science writers or journalists communicate, educate and build awareness about science. Science is a broad field that umbrellas fields such as physics, chemistry, biology, mathematics, environmental science, geology, metrology, and medicine, among others.
A science writer acts as a communicator between scientists, environmentalists, inventors, politicians and the community. They help bring news and discoveries to the general masses, educating them about the latest discoveries, ideas, technologies and innovations through science articles published in multimedia.
Green technology and its related fields is a relatively young area that needs more exposure. Science writers who have broad knowledge and understanding of science are needed to reconstruct scientific findings, digest the wide array of news, ask questions on behalf of readers and expose frauds for what they are.
The field of green technology is already beginning to boom with discoveries and ideas, which need to be brought to the attention of the public for the sake of the people, economy, policymakers and the planet.

Agriculture Engineers
Agriculture engineering is the combination of the fields of agriculture and engineering. Agriculture engineers are involved in the technical aspect of farming that involves machinery, strategic planning of land utilisation and the like.
They participate in the research and development of agriculture-related machinery and technology. They help advise farmers on practices that could increase yield, increase the sustainability of land, and they also plan and design systems for efficient water utilisation.
The rise of green technology will create job opportunities for agriculture engineers in research and development of agriculture based machinery and equipment. Their understanding of agriculture needs and practices combined with their technical engineering knowledge would render them perfect to identify the needs and problems faced in agricultural practices and to come up with solutions that would not only increase crop yield but that are sustainable, healthy and safe for our environment and all its constituents.

Conservation BiologistS
A conservation biologist strives to protect the earth’s biodiversity, identifying animals, plants and ecosystems that are under threat and finds solutions that can mitigate the problem.
A conservation biologist needs to have a deep understanding of the intricacy of an ecosystem, the relationship between plants and animals, and their needs to survive and be sustainable.
We have caused much damage to the natural world as we move towards a more modernised and globalised world. Therefore, it is high time that we undo the damage that we have done. Green technology will help us reverse, reduce and prevent further damage.
This opens the doors for conservation biologists. Their expertise will be needed to pinpoint areas that need remedy and to further aid the green technology sector by providing solutions to these issues. They will also play a part in creating awareness of the situation of flora and fauna that are endangered and the steps that need to be taken. Conservation biologists also act as advisors to policymakers, so that the right areas can be focused and build upon.


Read more: Green Technology: Careers for a viable future - Extras - New Straits Times http://www.nst.com.my/nation/extras/green-technology-careers-for-a-viable-future-1.155093?cache=ynzfkhhlsup%3Fpage%3D0#ixzz2tZCA5Y9r