Best of our wild blogs: 8 Feb 11


Run 350 is back! With a larger tree planting initiative
from Green Drinks Singapore

Be Amazed: Natural History at Raffles Museum of Biodiversity Research
from Raffles Museum News

Expanding out of the box
from Life's Indulgences

Polypody
from The annotated budak

Rare seagrass at Kranji Nature Trail
from wild shores of singapore and Horseshoe crabs at Kranji: what are they up to?

The Fall – 2010′s Sungei Buloh Anniversary Walk
from Toddycats!

How to clean Pandan with panache!
from News from the International Coastal Cleanup Singapore

A child speaks for the forests
from Celebrating Singapore's BioDiversity!


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Who says sharks are not endangered?

Straits Times Forum 8 Feb 11;

MR KIRK Leech responded to British chef Gordon Ramsay's comment that shark's fin soup 'tastes of nothing', with the statement: 'Food is a matter of personal taste, and Ramsay can have his opinion.' ('One man's delicacy, another's poison pill'; last Thursday).

Very true, except that it is used in the wrong context when we refer to a delicacy that is actually tasteless.

A friend of mine secretly served mock fins at her wedding last year, but no one tasted any difference, till she informed the guests. This is enough to prove that no one actually knows how shark's fin tastes, and it is essentially the flavours of all the other ingredients that make the soup.

It is also misleading to generalise that sharks are not endangered just because few are protected under the Convention on International Trade in Endangered Species of Wildlife Fauna and Flora (Cites).

Species protection proposals are presented at biennial Cites meetings, and Cites members, made up of related government agencies, would vote in agreement or disagreement to trade restrictions. Considerations such as how the decision will affect the country are often in place before votes are cast.

While Cites is the determining body of whether species are to be protected from trade, the International Union for Conservation of Nature (IUCN) is the oldest and only organisation that provides classification of risk statuses of plants and animals. Not Cites.

According to a 2010 IUCN study, 17 per cent of the world's 1,044 shark species are threatened with extinction, and 47 per cent of shark species are data deficient. Assuming half of these 47 per cent are threatened, this would mean that more than one-third are threatened.

The existence of unethical farming approaches (such as foie gras) does not justify our unsustainable hunt for sharks. We cannot say that it is okay to pick pockets because shoplifting is worse, can we? Let's not forget that both shark's fin and foie gras are non-staples in our diet.

It would be respectable to look at food from a view further than the dining table.

The importance of cultural practices should not supersede the importance of maintaining sustainability. Because Singapore is among the top trading nations for shark's fins, Singaporeans have great potential in making a positive difference.

Jennifer Lee (Ms)
Founder,
Project: FIN


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Malaysia: Wild weather patterns will lead to health risks and other woes

The Star 8 Feb 11;

PETALING JAYA: Malaysians who are already experiencing bad floods in parts of the country have to further brace themselves for extreme weather conditions in coming years. With the worsening weather conditions, health risks will also escalate.

The Meteorological Department says communicable diseases such as malaria, dengue and others are highly climate-sensitive and will worsen with changing global weather patterns.

Other developments include:

*Climate variability associated with the El Nino and La Nina phenomena has increased the average temperatures of the country by between 0.5 °C and 1.5 °C;

*The region will face rising sea levels, droughts, landslides and forest fires;

*Clean air, safe drinking water and secure shelter will be adversely affected;

*Crop yields will be reduced while weeds and pests will proliferate; and

*Reports say that the changing environment in South-East Asia is responsible for up to a quarter of all deaths in the region.

Winds of change look bad
Ng Cheng Yee The Star 8 Feb 11;

PETALING JAYA: First, it was the floods. Now, Malaysians will have to watch out for killer diseases.

Infections and diseases are expected to worsen with the extreme weather conditions likely to be experienced by the country in the next few years.

Sounding out the health risks caused by the extreme weather, the Meteorological Department research and development senior director Dr Wan Azli Wan Hassan said diseases like diarrhoea, malaria and dengue were highly climate-sensitive and would worsen with the changing global weather patterns.

He said the overall health effects of a changing climate in the next decade would have negative impact.

“Climate change affects the fundamental requirements for healthy living such as clean air, safe drinking water, sufficient food and secure shelter,” he said in an interview.

Dr Wan Azli said that due to climate variability associated with El Nino and La Nina phenomena in the last decade, the average temperature increased by 0.5˚C to 1.5˚C in the peninsula and 0.5˚C to 1˚C in Sabah and Sarawak.

He said that over the past 10 years, there had also been an increase in rainfall for most parts of the country except for southern Pahang where a decrease was recorded.

Last year, the average mean daily temperature of Malaysia was 26.7˚C while the average rainfall was 2,121mm in the peninsula and 3,208mm in Sabah and Sarawak, he said, adding that Malaysia was vulnerable to inconsistent weather patterns.

Recently, medical papers published by The Lancet journal stated that South-East Asia was a “hotspot” for emerging and difficult-to-control infectious diseases. The outbreak of avian flu is also fuelling fears about the possibility of new pandemic spreading from the region.

The reports said the changing environment in South-East Asia – a disaster-prone area which is frequently hit by monsoons and typhoons – was responsible for up to a quarter of all deaths in the region.

Climate change could exacerbate the spread of emerging infectious diseases in the region, especially vector-borne diseases linked to rising temperatures and rainfall such as dengue, the report added.

Dr Wan Azli said the changing climate combined with global population and income growth also threatened food security everywhere.

“Agriculture is extremely vulnerable to climate change. Higher temperatures will eventually reduce yields of desirable crops while encouraging weed and pest proliferation.

“The developing world, which is already vulnerable and food insecure, is likely to be the most seriously affected,” he said.

Dr Wan Azli warned that Malaysia and other South-East Asian countries would also be prone to weather-related natural hazards such as severe thunderstorms, rough seas, severe haze, floods, rising sea-level, landslides, droughts and forest fires in the next decade.

Of these, severe storms, haze and floods are the phenomena most clearly depicting the impact of climate change in Malaysia, he said.

Talking about the weather
The Star 8 Feb 11;

HOW’S the weather? It is a question we all ask. The Star reporter NG CHENG YEE had some hot and cold answers from the Meteorological Department's Research and Development senior director Dr Wan Azli Wan Hassan. Q: How has the weather pattern changed in the region and in Malaysia over the last decade?

A: Inter-annual variability associated with El Nino/La Nina-Southern Oscillation (ENSO) and Indian Ocean Dipole (IOD) dominated the weather pattern in the region. El Nino and La Nina respectively bring drier and wetter conditions to Southeast Asia. A minor La Nina occurred in 2000 and 2001. Then, an occurrence of El Nino started in September 2006 and lasted till early 2007.

The 2007–2008 La Nina was the strongest since 1989. El Nino conditions were in place starting from June 2009, peaking in February last year.

Last year, large parts of Indonesia experienced heavy rains as La Nina developed, with unusual rains from May (normally the driest time of the year).

We also had monsoonal rainfall changes in Southeast Asia in the past decade but lack of data compromised evidence for trends. In October last year, under the influence of a weak La Nina, the super-typhoon Megi crossed the northern Philippines after reaching a minimum central pressure of 885 hPa, making it the strongest tropical cyclone in the world since 2005 and the strongest in the Northwest Pacific since 1984. Megi caused widespread damage to infrastructure and agriculture in the northern Philippines, Taiwan and the Fujian province in China.

In the last decade, an average temperature increase of 0.5°C to 1.5°C was recorded in the peninsular and 0.5°C to 1.0°C in Sabah and Sarawak.

The western coast of the peninsular experiences larger rise in temperature when compared to other regions in Malaysia.

In terms of rainfall, over the past 10 years, there has been an increase in rainfall for most parts of the peninsular as well as in Sabah and Sarawak, except southern Pahang, where there was a decrease in rainfall. The regions with significant increase in rainfall are the western and north-eastern regions of the peninsular, central Sarawak and Sabah.

In recent years, increase in weather extremes has been observed in Malaysia.

This increase could be associated with the natural variability in the sea surface temperatures of the equatorial Pacific Ocean and the Indian Ocean. For example, the northeast monsoons of 2006/2007 and 2007/2008 brought torrential rain and floods to Malaysia. The rainfall during the northeast monsoon of 2006/2007 was the worst-ever recorded in southern peninsular, especially in Johor. Other extreme events, such as severe thunderstorms, dry periods and haze, have become more prevalent in recent years. Due to the complex interaction of the atmosphere, ocean and biosphere, the global warming definitely has contributed to these changes.

Q:How much did the weather change last year, compared to the beginning of the last decade? In terms of occurring during the "normal months", has the pattern changed?

A:The following are based on a month-to-month or season-to-season comparison of accumulated monthly rainfall between 2001 and last year at 35 principal meteorological stations throughout Malaysia. i) For northeast monsoon, from October to December last year, there seemed to be a see-saw wetter and drier conditions occurring from month to month. The entire country experienced wetter conditions during November in between the drier conditions in October and December. The wetter north-western region of Peninsular Malaysia in December was an exception.

ii) Generally, drier conditions were experienced throughout the peninsular from January to March last year, except in the north-western region during February and the interior areas of the central region in February and March.

iii) Sabah experienced drier conditions from January to March last year. Similarly, Sarawak experienced drier conditions in January and February, except western Sarawak where wetter conditions were experienced in January.

iv) Not much difference in rainfall amounts throughout the country from April to May last year, except slightly drier conditions in the north-western and central regions during April, and slightly wetter conditions in the central region in May.

v) Not much difference in rainfall amounts in Sabah and Sarawak during April last year, but took a turn to wetter conditions during May.

vi) Conditions were significantly wetter throughout the country from June to July last year, meaning that the southwest monsoon season in 2010 was much wetter compared to 2001.

vii) While Sabah and Sarawak, as well as central peninsular, continued to experience wetter conditions in August, northern peninsular faced drier conditions.

viii) Not much difference in rainfall amounts throughout the country during September except wetter conditions in Sabah and slightly drier conditions in north-eastern peninsular.

Q: What is the temperature difference when comparing last year and 2001? What is the highest and lowest for last year and the highest and lowest for 2001?

A: i) North-western Peninsular Malaysia became warmest in the country with an average increased in annual mean temperature of 0.6°C.

ii) Central and southern Peninsular Malaysia were the second warmest areas with an average increase in annual mean temperature of 0.35 – 0.45°C.

iii) Sabah and north-eastern Peninsular Malaysia were warmer by an average increase in annual mean temperature of 0.25°C.

iv) The annual mean temperature in Sarawak remained unchanged.

v) The highest maximum temperatures were 37.4°C recorded at Temerloh, Pahang in 2001 and 38.2°C recorded at Chuping, Terengganu last year.

vi) Excluding Cameron Highlands, the lowest minimum temperatures were 19.5°C recorded at Kuala Krai, Kelantan in 2001 and 20.0°C recorded at Kota Baru and Batu Embun, Pahang last year.

Q: In Malaysia, where are the drastic changes occurring? Which part of Malaysia and why?

A: The rainfall during the northeast monsoon of 2006/2007 was the worst ever recorded over southern peninsular, especially in Johor, which caused floods of 100-year return period. Even though Malaysia was experiencing warmer conditions and had more rain during the northeast monsoon of 2006/2007 and the southwest monsoon last year, there seems to be no overall drastic change in weather occurring in the country.

The extra rainfall received could be explained by natural climate variability and not necessarily due to global warming, even though climate variability and climate change due to global warming are somehow interconnected. Natural climate variability and global warming all contribute to climate change. Climate variability denotes the short-term changes in climate while climate change due to global warming is considered as the long-term change in the Earth’s climate. Therefore, we may conclude the observed changes occurred over the past few years were due to natural climate variability and global warming acting in the same direction.

Q: Is the same pattern of change going to continue?

A: It is projected that the average global surface temperature will continue to increase in the future. The Malaysian Meteorological Department has analysed data obtained from the inter-governmental panel on climate change to look at the projected warming for Malaysia.

The findings are as follows:

i) The temperature changes at the end of this century (2099), relative to the baseline (1961-1990), as projected by the nine atmospheric-ocen general circulation global models (AOGCMs) are in the ranges of about 1.1 - 3.6oC for Peninsular Malaysia and about 1.0 – 3.5oC for both Sabah and Sarawak;

ii) Towards the end of the century, certain areas in the region would experience higher temperature increase. Indochina is projected for the highest temperature increase, followed by Sumatra and Peninsular Malaysia;

iii) The temperature projections clearly indicate highest temperature increase over land compared to the sea areas. Overall for the region, the range of temperature increase at the end of the century is between 1.0ºC to 4ºC.

iv) Under the warming climates, rainfall patterns will generally change globally with highly variable trends occurring over the tropical region, including over Malaysia. Some areas would receive in excess of rainfall and some areas would be in deficit of rainfall, therefore, affecting water resources availability.

v) Time series showing projections of rainfall from the nine AOGCMs are differed among the model, and there are no clear trends of overall rainfall for Malaysia for the 21st century.

vi) In general, there will be no particular or clear mean annual rainfall trend due to the warming climate scenario over the Southeast Asia region. However, more extreme rainfall events can be expected over some areas in this region due to the warming climate.

Q: Will it have any impact on the environment, food and crops, the health of people and animals?

A: Weather-related natural hazards associated with climate change include severe thunderstorms, rough seas, severe haze, floods, sea-level rise, landslides, droughts and forest fires. Of these, severe storms, haze and floods are natural phenomena most clearly depicting the impact of climate change in Malaysia.

Extremely wet condition can lead to severe floods, landslides as well as loss of lives and properties while extremely dry condition will result in droughts, forest fires and crop failures which lead to socio-economic disorders. The accelerating pace of climate change, combined with global population and income growth, threatens food security everywhere. Higher temperatures eventually reduce yields of desirable crops while encouraging weed and pest proliferation. Changes in precipitation patterns increase the likelihood of short-run crop failures and long-run production declines. Although there will be gains in some crops in some regions of the world, the overall impacts of climate change on agriculture are expected to be negative, threatening global food security.

The overall health effects of a changing climate are likely to be overwhelmingly negative. Climate change affects the fundamental requirements for health such as clean air, safe drinking water, sufficient food and secure shelter. Many of the major killers such as diarrhoea, malnutrition, malaria and dengue are highly climate-sensitive and are expected to worsen as the climate changes.

Q: Can you give specific reasons for this drastic changes, except for global warming, La Nina and El Nino?

A: We have observed climate variability and climate change due to global warming acting in the same direction over the past few years. Therefore, climate variability goes hand in hand with climate change. Extremely hot or wet weather can be a consequent of natural weather variability and not necessarily due to anthropogenic climate change which caused global warming.

However, when a pattern of extreme weather persists for some time, it may be classed as an extreme climate event related to global warming. The Earth’s climate is dynamic and naturally varies on seasonal, annual, decadal, centennial, and longer timescales. Each "up and down" fluctuation can lead to conditions which are warmer or colder, wetter or drier, stormier or calmer.

When knowing the weather means money and life
The Star 8 Feb 11;

PETALING JAYA: For most Malaysians, the weather may just mean rain or shine. They seldom check with the Meteorological Department unlike people living in countries prone to natural disasters.

But there are people for whom the department’s forecast could be the difference between losses and profits, or even life and death.

For those involved in commodity trading and pasar malam traders, the weather holds the key to how much they can earn a day.

The department’s National Wea-ther Forecast Centre director Saw Bun Liong said they often received phone enquiries from these people.

“For pasar malam (night market) traders, it is important to know about the weather as it will help them to decide whether or not to set up stall for the day.

“Many companies involved in commodities trading also need to know the changes in the weather condition to help them predict commodity prices,” he said.

The weather forecast is even more important for oil companies and fishermen.

At oil rig locations, at least two senior officers from the department monitor the weather conditions.

“If the waves are too high, we will issue a warning so oil companies can pull their workers out from the locations.

“We also provide forecast to the Fisheries Department which will in turn issue warnings to fishermen if the sea is too rough,” he said.

To regularly keep the people in-formed of the weather, his department will start updating data on the social network Facebook next week. “We will also give real-time answers to those who make enquiries through the social media.”

He said the department would also continue to play its role in predicting the weather for major tournaments like the Formula One Malaysian Grand Prix and Monsoon Cup.

“We will send two buses equipped with a satellite system to monitor the weather during the Langkawi Inter-national Maritime and Aero-space Exhibition, he said.

Thunderstorms expected in Johor until Thursday
New Straits Times 8 Feb 11;

KUALA LUMPUR: The Meteorological Department has forecast that several areas in Johor will experience severe thunderstorms until Thursday.

Central forecast office principal assistant director Amir Zudi said yesterday the country’s climate was entering a changing period.
“At the end of the monsoon season, thunderstorms are common because of the unstable atmosphere.

“The North-East monsoon wind is exiting Malaysia, and the South-West monsoon will begin in May.”

He said the inter-monsoon period stood in-between the two distinctive seasons, where thunderstorms were a common occurrence in Malaysia during that time.

“The southwest monsoon will last from May until September, where there will still be rain, but in much lesser volume compared with its north-east counterpart.”


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Whale sharks: Biggest fish could be even bigger

Ella Davies BBC News 7 Feb 11;

Whale sharks, the world's biggest fish, could be even bigger than previously recorded, a new study reveals.

Scientists working in Mozambique have developed a new method of measurement using a camera mounted with lasers.

Although previously estimated at up to 20 metres in length, accurate details of the giant fish have been difficult to obtain in the past.

Researchers believe regular measurements will reveal more about the lifecycles of these sea giants.

Scientists studying whale sharks (Rhincodon typus) describe a technological breakthrough in understanding the plankton-eating giants.

Working with the University of Queensland, the Marine Megafauna Foundation and CSIRO Marine and Atmospheric Research, the team's findings are published in the Journal of Fish Biology.

"Our paper is the first to publish accurate measurements for whale sharks in the field," says PhD candidate Christoph Rohner.

"Other researchers have previously tried to measure the sharks with a tape measure, or by visually estimating size, which is obviously difficult to do accurately," he explains.

Many previous size records were based on the photogrammetery method: estimating measurements from photographs.

Researchers claim they have dramatically improved the precision of this method with the addition of two laser pointers.

By positioning the lasers 50cm apart on either side of the camera, the distance between the projected points provides a fixed scale so that photographs can be analysed with greater accuracy.

"The laser system will allow us to reliably obtain accurate measurements from free-swimming sharks, so we may well find out that the world's largest fish is even larger than presently recorded," says Mr Rohner.

Researchers say their new method has already seen the recorded size of some individuals increase by up to 50cm.

In addition to recording the length of whale sharks, researchers say the photographs could reveal more about the enigmatic species.

"Whale sharks can be individually-identified using the distinctive pattern of spots on their flanks. We project laser spots onto this region, allowing us to obtain both the identity and length of the shark with a single photograph," says Mr Rohner.

"At present we have no clear idea about how long whale sharks live, but it may be for over one hundred years. By repeatedly measuring the same individuals over time, we hope to be able to eventually find out how old a twenty metre shark might be," he adds.

Conservationists are concerned that the giant fish are under threat from commercial fishing including harpoon fisheries and incidental capture.

Researchers claim that by understanding whale sharks' lifecycles, they can more accurately predict how populations are impacted by these activities.

Mr Rohner emphasises the importance of measuring individuals over time to learn more about their development and confirm their growth rate.

"Whale sharks are globally threatened, and this kind of basic but hard to get information is vital for effectively conserving the species," he says.

Researchers estimate that 19% of the global population of whale sharks has been recorded off the coast of Mozambique.

Recent satellite tagging experiments have shown the fish migrating extremely long distances of up to 13,000 km.


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Russia resumes sturgeon caviar exports to Europe

Yahoo News 7 Feb 11;

MOSCOW (AFP) – Russia has resumed sturgeon caviar exports to the European Union after a nine-year ban, a fisheries watchdog said Monday.

Russia has decided to allow exports to Europe of up to 150 kg (330 lbs) of black caviar from farmed fish as "a symbolic volume," said Alexander Savelyev, a spokesman for the Federal Fisheries Agency.

"The goal is to break the ice which has formed over the past nine years when not a single permit was issued for exports of the black caviar from Russia," said Savelyev.

Fearing extinction of sturgeon prized for its caviar eggs Russia had banned exports of black caviar in 2002. The move however had encouraged poaching as well as illegal exports to Europe through Turkey and the Causasus.

"An attentive European wouldn't understand this news," Savelyev said.

"He is used to seeing cans of Russian caviar. They didn't disappear anywhere. That was illegal import from Russia."

Savelyev said he foresaw caviar export growth in the future. Several fish farms already operate in the Kaluga, Rostov, Astrakhan, and Novosibirsk regions.

"We expect a lot of farmed caviar in a year or two," he told AFP, adding Russia could produce up to 200 tonness of caviar a year for a 350-tonne market.

Russia to export 2.5 tonnes of caviar to EU: watchdog
Yahoo News 16 Feb 11;

MOSCOW (AFP) – Russia expects to export at least 2.5 tonnes of sturgeon caviar to the European Union this year after lifting a nine-year ban on such sales, the fisheries watchdog said Wednesday.

The world's second-largest official producer of caviar after Iran said earlier this month that it would resume EU sales of black caviar from farmed fish, sending a 150-kilogramme (330-pound) test shipment to Europe.

Russia banned the harvest of sturgeon caviar in 2006 to help fight overfishing. Caviar production resumed in specially designed farms in 2010.

The head of the Federal Fisheries Agency said Wednesday that Russia expected to send 2.5 tonnes "or more" of the premium delicacy to Europe this year, the RIA Novosti news agency reported.

The report provided no export figures to other countries.

In 2010, Russia and three other former Soviet republics set quotas allowing for the export of three tonnes of sturgeon caviar between them.

The decision was reached to help fight poachers, who were flooding the black market with illegally-produced caviar.


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A Growing Risk? Endangered Plants For Sale Online

Nell Greenfieldboyce NPR 8 Feb 11;

A new study suggests that it is surprisingly easy to get your hands on an endangered plant. That's letting some activists engage in their own efforts to help save rare species from extinction. But some conservation experts worry that there are potential risks when private groups unilaterally decide to move their favorite plants to new habitats.

"There's been a lot of attention to the trade of endangered animals. There's been less attention to the trade of endangered plants," says Patrick Shirey, of the department of biological sciences at the University of Notre Dame.

Recently he and a colleague did an Internet search using the phrases "seeds for sale" or "plants for sale" to see how many of the plants listed as endangered and threatened under the U.S. Endangered Species Act can be purchased online.

They found that around 10 percent were being advertised online, according to a recent report in the journal Nature. More than 50 sellers were offering to ship these plants between states, which is illegal interstate commerce under federal law without a permit.

Other sellers were offering these plants for sale in-state, which is legal. However, once a person obtains a plant, it's easy to move it around, Shirey says. It's legal, for example, for someone to drive to a nursery in one state, purchase an endangered plant, and then drive it to another state.

"You could drive to South Carolina and bring a plant up to Maryland, and you would not be violating federal law," says Shirey.

What's more, people who own any endangered plants on their property can give them as gifts to anyone. That's because federal laws treat endangered plants very differently than endangered animals.

"It dates back to a very old tradition of how we treat species," says Shirey. "Under common law, the person that owned the land owned the plants that were on the land, whereas the king owned the animals under English law."

'Assisted Migration' Creates Opportunity For Problems

All of this means that people can legally do things that could potentially create real ecological problems, he says. Moving plants to different habitats could spread plant diseases, or some plants could adapt to their new home too well and become invasive weeds.

But with climate change looming as a possible new threat, some experts worry that concerned citizens will be more and more tempted to try to save a beloved species by transplanting it to someplace more hospitable.

One group, called the Torreya Guardians, organized with the help of writer and naturalist Connie Barlow, is already doing this kind of "assisted migration" for an endangered evergreen known as Torreya taxifolia, or Florida stinking cedar.

Currently, this tree's native range is in northern Florida, where fewer than a thousand grow wild along a stretch of the Apalachicola River. But starting in 2008, the Torreya Guardians planted seedlings from private sources onto privately owned land in North Carolina.

"I have a mystical side to me where I spent time communing with the plant, and trying to get a sense of what it wanted," says Barlow, who felt an affinity to this ancient species. She believed it wanted to leave Florida and migrate northward, where it might be more likely to survive climate change.

"I felt I was the only advocate," says Barlow. "I was the only one who was going to say it's not sufficient to just spend hundreds of thousands of dollars trying to find a way to make this plant be able to live again in the Panhandle of Florida. I said, 'I can do it for zero money, working with fellow volunteers, and we can legally give this plant a chance.' "

Her view is that the tree probably lived northward during the previous warm times of the past 2.5 million years, and her group is simply returning it to an older range.

Citizen actions that involve moving around endangered plants into new habitats worry Mark Schwartz, a plant ecologist at the University of California, Davis.

"It takes a lot of thought and probably some science to understand the risks there," he says. "And volunteers generally aren't going through that assessment process. They're going out and doing things."

Still, Schwartz understands why they want to do something. He says far more money is spent on helping cute and fuzzy endangered animals than plants.

"The Endangered Species Act is rather anemic with respect to accomplishing the job of protecting plants," he says. "It encourages people to take this job onto their own shoulders, so there's a tension there."

Schwartz says private citizens can help native plants, by pulling weeds or conserving their land. But when it comes to resettling a plant in a new area, he urges caution and says conservation groups need to come up with guidelines to help keep plant lovers from inadvertently making big mistakes.


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Jakarta enlists help from Rotterdam to deal with flood

Andreas D. Arditya, The Jakarta Post 8 Feb 11;

The city administration signed an agreement on Monday with the city of Rotterdam, under which Jakarta would seek assistance on how to deal with flooding in the city.

Under the agreement, part of a Memorandum of Understanding (MoU) signed by Jakarta Governor Fauzi Bowo and Rotterdam Mayor Ahmed Aboutaleb, over the next two years Jakarta would receive assistance for managing flooding in the city, including expertise in the construction of a massive seawall off the city’s northern coast.

Fauzi said that Jakarta needed to learn from Rotterdam, a city recognized worldwide for its water management knowledge and flood control expertise.

“We have done a study and we will copy a water system, including the use of polders, which is integrated with other solutions,” Fauzi said.

Within the agreement the city of Rotterdam would advise Jakarta on the construction of the seawall.

In anticipation of the worsening rate of sinking land and rising sea levels, the Jakarta administration is mulling a plan to construct a giant seawall.

A feasibility study conducted by the Jakarta Coastal Defence Strategy (JCDS) consortium, which is partly funded by the Dutch government, said that the seawall would be able to cope with land sinkage and rising sea levels reportedly caused by global warming.

According to the JCDS design, a seawall would be erected off the Jakarta coast spanning 60 kilometers from Tangerang on the west end of the city to Bekasi in the east.

A project study kicked off in December last year and is expected to wrap up within three years. The city expects to have the seawall ready by 2025.

Jakarta is one among many cities in the country with some areas below the sea level. Forty percent of Jakarta’s land is below sea level.

A study conducted by the Bandung Institute of Technology discovered that the sea level in the Jakarta Bay area had risen at a rate of 5.7 millimeters per year.

Aboutaleb, who was on a four-day visit to the city on invitation from Fauzi, said that Rotterdam was committed to helping Jakarta in dealing with destructive power of water.

“In Rotterdam, we have always had to defend ourselves against the force of the North Sea in the west and the high tides of our rivers. Consequently, we have developed enormous expertise in water management,” he said.

Rotterdam has helped Jakarta over the past two years by providing knowledge on drainage system maintenance.

Flooding has become a major problem in the city. The worst flooding in Jakarta’s history inundated about 70 percent of the city in 2007, killing at least 57 people and driving more than 450,000 from their homes.

The Jakarta administration also expects to start a massive river dredging project soon.

The administration will rely on a US$150 million loan from the World Bank for the Jakarta Emergency Dredging Initiative (JEDI) project, which will dredge 13 main rivers and two flood canals to help reduce the risk of extreme flooding.

The city’s revitalization of the 119-kilometer Ciliwung river, Jakarta’s main waterway, was expected to directly affect more than 210,000 people living along its banks.


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Australia: Cyclone Yasi strips rare forests, reef

Peter Michael The Courier-Mail 8 Feb 11;

WORLD Heritage rainforest and surviving populations of endangered southern cassowaries and dugong were hit hard by Cyclone Yasi, scientists warn.

Some of Queensland's top tropical experts met for the first time yesterday to assess the ecological impact of the Category 5 cyclone described as "far worse and over a far greater geographical scale" than Cyclone Larry.

Researchers are yet to obtain satellite and aerial data showing the full extent of destruction to the world's oldest continuous surviving rainforest - up to 130 million years old - from Etty Bay south to Ingham.

Huge sections of ancient rainforest trees, stripped bare by the 300km/h winds near the eye of the cyclone near Mission Beach, stand like dried stalks in the once-thick green foliage.

Virtually none of Queensland has been untouched by destructive weather in the past month.

Experts believe hundreds of kilometres of the Great Barrier Reef, too, will take up to 10 years to recover from the effects of Cyclone Yasi.

The Great Barrier Reef Marine Park Authority is yet to send divers for underwater assessments. But broken coral from the fragile reef ecosystem and floating islands of seagrass torn off the shallow ocean floor are being washed ashore along the hardest hit parts of the coastline.

Professor Paul Gadek, a highly respected tropical scientist, said the coastal and mountain rainforests had been decimated in a natural cycle doubtless replayed over countless thousands of years.

"Cyclones are part of the natural order," said the James Cook University professor. "But when you see the loss of canopy, the loss of large trees, the loss of habitant and the extent of area it covers, it beggars belief as to how it can possibly recover."

He said projects comparing data obtained post-Larry will study the impact on the flora, insects, birds and mammals.

"What does happen to butterflies in a cyclone?" he said.

Wet Tropics Management Authority chief Andrew Maclean said up to $10 million of federal funding was needed, with an urgent priority on the impact on the endangered cassowaries.

"There is still a human impact - we have to be sensitive to getting roofs over the heads of affected families," said Mr Maclean.

"But the food of the cassowary has been thrown on to the forest floor and within a week will begin to rot."

The diverse rainforests around Tully and Mission Beach contain a large proportion of Australia's plant species, including 65 per cent of fern species.

They provide habitat for more than half the nation's bird species, 60 per cent of the butterflies and 36 per cent of mammals.

It is also home to the endangered southern cassowary.

GBRMPA chief Russell Reichelt said the progress the reef has made since Cyclone Larry will now be destroyed.

Mr Reichelt said the cyclone and storm surge would have smashed coral beds and moved coral boulders, sand and rubble.

He warned any loss of important sea grass beds, disturbed by the cyclone, will have a drastic impact on animals like dugongs.

Hinchinbrook Island, off Cardwell, has one of Australia's biggest known populations of dugong.


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Climate shifts spur fish bonanza on Bangladesh coast

Syful Islam Reuters AlertNet 7 Feb 11;

DHAKA (AlertNet) - Fishermen are finding unexpectedly large quantities of Bangladesh's national fish Hilsa in coastal estuaries out of season, a trend scientists believe is caused by the impacts of climate change and pollution on their breeding patterns.

The silvery Hilsa fish, popular for its tasty flesh, normally migrates from the Bay of Bengal into Bangladeshi rivers between June and October, where it breeds.

In winter, fishing communities in the southern coastal district of Barguna often suffer from hunger as the government bans river fishing between November and May to help Hilsa minnows mature. Families struggle to get by, despite receiving financial assistance from the state.

This year is different. Azhar Ali, a trader waiting at Machkhali fishing station for boats to return from the estuaries, explains that Hilsa fish went for 350-400 taka ($5-$6) per kilo in the peak season, but now, unusually for the off season, they are selling for 200-250 taka per kilo because there are so many around.

Naznin Begum, the wife of a Machkhali fisherman, is happy that her husband is getting a good catch at this normally lean time of year, because it gives them the rare assurance of having enough to eat. "Every year in this period, our rice pots remain empty. Children shout for food. But this year we have no such tension (thanks to) God's kindness," she explains.

For the past two weeks, fishing stations in this remote coastal district have been bustling with fishermen and traders. Boats have been returning from the estuaries full of large Hilsa, and traders have been snapping them up for clients in the capital Dhaka and other parts of the country.

Sagir Alam, head of the Patharghata Fish Traders Association, says his members are transporting fish worth 15 million taka (around $211,000) each day. But he admits it's a puzzling situation. "We can't imagine such large Hilsa fish during the winter. But now we are getting fish of 1 to 1.5 kg each. We are little bit mystified."

WARMING SEAS

Scientists say the recent surge in Hilsa fish out of season is one sign of the growing effects of climate change on ocean ecology.

Dr Sultan Mahmud of the fisheries faculty at Patuakhali Science and Technology University explains that rising sea temperatures are disrupting breeding patterns, and are contributing to a shift in the mating and migration of the Hilsa fish.

The Bay of Bengal has four fishing grounds, but recently Hilsa fish have been found outside these zones. Mahmud and his university colleagues plan to launch intensive research on the issue soon.

Climatic variability is affecting the fish's growth and reproductive cycle, according to Mahmud. The large fish being found in estuaries out of season may be coming in from the deep sea for late breeding.

"This is a sign of climatic pressure on the bay. The effect will also put pressure on other sea mammals," he notes, adding that the whole food chain is being impacted.

The Hilsa fish isn't the only species being affected by environmental changes linked to global warming, including more intense monsoon rains and tropical cyclones.

Last October, Olive Ridley turtles on Saint Martin's island laid eggs three months earlier than usual. And, in December, fishermen in the Bay of Bengal caught unusually large volumes of Red Snapper fish over a period of several days.

RIVER ECOSYSTEMS UNDER STRESS

Extreme weather and pollution are compounding the shifts out at sea. The Hilsa fish is losing considerable stretches of its river breeding grounds, as many rivers have changed course and narrowed due to siltation caused by droughts and reduced water flow upstream.

River ecosystems are also being damaged by the dumping and run-off of untreated sewage, fertilisers, pesticides and industrial chemicals.

Fishermen used to catch Hilsa in many Bangladeshi rivers, including the Padma, Jamuna and Meghna. But as many dry up into thin canals during the summer months, the fish can no longer head hundreds of kilometres upstream, which they naturally do to breed.

The building of dams and barrages upstream is also preventing their normal migration, cutting their numbers upstream. The loss of their spawning grounds seems to be driving the fish to breed too early or too late, and in rivers much closer to the sea.

Abdur Rashid, 65, a fisherman in Bishkhali in Borguna district, says he hasn't seen this many Hilsa fish during the winter in the 50 years he has been working.

"Usually, we can't fish in this period as the government doesn't allow us to go to the river. We starve with family members, and struggle to survive," he explains. "This year the scenario is totally different. We are getting a huge volume of Hilsa fish and can earn money to buy food."

Fishermen Md Aslam, Alamgir Sarder and Sagir Hosen agree, saying they would expect to find only young fish at this time of year. For them, what's happening now is a "miracle".

But some worry this new phenomenon could bring trouble. "We may not get adequate Hilsa fish next season," frets fisherman Ahmad Hosen. "I am afraid there may be danger in the offing."

Patuakhali university expert Mahmud echoes his concern. "Getting Hilsa fish in winter is not only astonishing but also alarming," he says. "Climate change could be the knock-out punch for many species which are already under stress from habitat loss."

Syful Islam is a journalist with the Financial Express newspaper in Bangladesh.


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Abu Dhabi: Mangroves form buffer against natural calamities

Abu Dhabi shows off plantation on Saadiyat, Jubail Islands
Binsal Abdul Kader Gulf News 8 Feb 11;

Abu Dhabi: Abu Dhabi has a great wall to protect it from possible natural calamities originating from the sea. The wall can also mitigate climate change.

Mangroves on the eastern corniche and on the small islands close to Abu Dhabi island guarantee the protection of developmental projects on the coastal areas including real estate projects from natural calamities from the sea, officials of Environment Agency Abu Dhabi (EAD), said.

"You can remember that it was not the concrete buildings or walls but mangroves withstood the deadly Tsunami waves in 2004 in many affected countries," Thabit Al Abdul Salam, Director of Biodiversity Management Sector at EAD, said.

He spoke to journalists during a media tour to the new mangrove plantations on Saadiyat and Jubail Islands. Mangroves mitigate the climate change by absorbing carbon from the environment, Abdul Salam added.

Numbers

-800,000 mangrove plants planted on Saadiyath and Jubail islands

-72 square kilometre mangrove cover in Abu Dhabi

-Abu Dhabi has the second largest mangroves coverage in the Gulf region after Iran (Iran has around 90 square kilometre)

Thousands of mangroves planted, and more to come
Vesela Todorova The National 8 Feb 11;

ABU DHABI // As the last of 800,000 mangrove saplings were added to a reforestation effort along the capital's coastline yesterday, environmental officials pledged that more of the indigenous trees will be planted throughout the emirate.

Plans by the Environment Agency - Abu Dhabi (EAD) to restore mangrove habitats that have been affected by development will be extended to coastal areas in the Western Region, and to Ghantoot by the Dubai border, officials said.

Since official record keeping on mangrove habitats in Abu Dhabi began in 2001, EAD has recorded the loss of 20 square kilometres to make room for coastal developments.

"Mangroves were once everywhere in Abu Dhabi," said Dr Thabit al Abdessalaam, the EAD director of biodiversity management.

Officials estimate that Abu Dhabi has 72 sq km of mangrove habitat, second in the region only to Iran, which has about 90 sq km.

The rehabilitation work that finished yesterday began in November 2009 and involved planting 800,000 saplings on Jubail Island. Jubail is located off Saadiyat Island, which is under development by the Tourism Development and Investment Company (TDIC) to become the capital's cultural district.

The TDIC also ran a separate mangrove-planting effort that produced about a million saplings since spring 2008, on Saadiyat and elsewhere around the capital.

Dr al Abdessalaam said the reforestation effort had to be carefully planned so that the seedlings - of the Avicennia marina, or black mangrove, variety - stood a good chance of success.

"We did not want to dredge to create channels," he said. "We had to make sure that only areas that had water inundation would be planted."

The team conducted surveys of the area from the air and on the ground to ensure that any planting would not destroy salt marshes and mudflats, which are also important natural habitats.

Yesterday the first of the 800,000 saplings planted, now a year old, appeared to be thriving. They had grown to about 60 centimetres, with their roots - which need exposure to air to breathe - clearly visible sticking up from the sand. The muddy shore on which the mangroves had been planted was full of gastropods, a type of mollusc that serves as a food source for birds, part of the ecosystem that mangroves help to sustain.

"These were not here before we planted the mangroves," Dr Himansu Das, a scientist with the EAD, said.

Besides providing food and shelter for many species of birds, mangroves are also important nurseries for healthy fisheries, with many species of fish and invertebrates such as shrimp starting their lives in the calm, nutrient-rich waters of mangrove swamps.

While more mangroves are to be planted in Ghantoot, Mirfa and Tareef in the Western Region, the EAD has not yet decided when the work will start or how many trees there will be.

"The goal is not to increase areas of mangroves," Dr al Abdessalaam said. "The goal is to restore the habitat, to mitigate and reduce the effects of coastal development."

Mangroves like a pinch of salt

Mangrove forests are among nature’s most biologically productive habitats. They are important to fisheries as they provide shelter for many species of juvenile fish. Birds, invertebrates and even marine turtles need them survive.

Mangrove forests are also important to stabilise and protect the coastline, and to sequester greenhouse gases, said Dr Thabit al Abdessalaam, director of biodiversity at the Environment Agency – Abu Dhabi.

Mangroves are unique in that they do not need fresh water to survive.

The UAE’s variety is the highly salt-tolerant Avicennia marina, commonly known as grey or black mangrove.

Because the mud where they grow contains very little oxygen, grey mangroves have developed aerial roots above water, allowing them to breathe.

The trees survive in harsh, saline conditions by secreting salt through special glands on their leaves.

* Vesela Todorova


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