Best of our wild blogs: 7 Sep 18



Pollination disrupted by Rose- Ringed Parakeets
Singapore Bird Group


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How vulnerable is Singapore to climate change?

Country is exposed to hazardous impacts such as rising sea levels, higher temperatures
Winston Chow Straits Times 6 Sep 18;

Prolonged heatwaves in North America and in Europe; massive wildfires in California and in Athens, Greece; debilitating droughts seen over New South Wales in Australia; and the extreme rainfall causing massive floods in Kerala, India. This summer has seen a spate of destructive extreme weather worldwide and has led some to consider if climate change is a factor for these events happening.

As recently as five years ago, attributing a link between climate change and extreme weather was a difficult task. However, this method is now significantly more robust. Several extreme weather types can be attributed directly to climate change arising from human activities through carbon dioxide and other greenhouse gas (GHG) emissions.

For instance, the Northern European heatwave this summer was two times more likely to occur with present-day climate, compared with a scenario in which humans did not alter the global climate.

When considering costly damages arising from extreme weather elsewhere, one common view is that Singapore is "lucky" to not experience these impacts directly. While we should acknowledge our fortunate geography (for example, our equatorial location means typhoons are very unlikely to happen here), we still are exposed to several hazardous climate impacts.

As global GHG emissions continue to rise despite political pledges from the 2015 Paris Agreement, it would be timely to reconsider how vulnerable Singapore is to present and future climate change impacts. There are three of note.

HIGHER TEMPERATURES

In the short term, we will feel the heat of climate change from increases in average temperatures. Thirteen out of the past 15 years have been the warmest in Singapore's historical record since 1929.

Water use in Singapore is still high relative to other cities, and several of my colleagues from the National University of Singapore point out that individual and commercial water demand can be lowered to reduce drought vulnerability.

In recent years, days when maximum temperatures exceed 34 deg C and nights when minimum temperatures exceed 26 deg C have been more frequent.

Depending on future global GHG emission levels, climate modelling by the Meteorological Service Singapore projects further average temperature increases of between 1.4 deg C and 4.6 deg C, as well as more frequent warmer days and nights by 2100.

These temperature changes are due to larger-scale GHG emissions and the local "heat island" effect directly resulting from Singapore's urbanisation. Replacing Singapore's natural forests and mangroves with buildings and other infrastructure results in built-up surfaces retaining or producing considerable amounts of heat. At night, the difference between downtown Singapore and forests in Lim Chu Kang can exceed 7 deg C.

Warmer temperatures have several direct impacts, such as outdoor thermal discomfort and increased likelihood of heat stress injuries, and indirect impacts from increased use of air-conditioning that are largely powered by non-renewable energy sources in Singapore, thus increasing local GHG emissions.

How can we reduce our vulnerability to heat? We cannot depend on natural variations in climate, such as the odd cold spell that happened in January, to regularly solve this problem.

Instead, integrated climate-sensitive urban design involving multiple stakeholders is one way forward to reduce our heat vulnerability.

To this end, the Cooling Singapore initiative has an illustrative guide of heat island adaptation methods, such as maximising shade, enhancing natural wind flow and increasing urban green spaces.

CHANGING RAINFALL PATTERNS
Unlike the temperature, Singapore's average total annual rainfall of about 2.4m has not changed substantially in the long-term record since 1869.

In future, climate change is not expected to alter total annual rainfall for Singapore. However, in the medium term of the next 30 years, changes to rainfall patterns, both in the excess and lack thereof, will be an issue.

First, intensities and frequencies of local rainfall events have significantly increased over the past 30 years. Second, periods of meteorological drought, in which monthly rainfall is consistently below average, have recently been more intense for Singapore and Johor.

These prolonged dry periods often coincide with strong El Nino events which make South-east Asian weather hotter and drier. Worryingly, recent studies also indicate stronger El Nino episodes are more likely to occur due to climate change.

Periodic local flash floods aside, national water agency PUB has been immensely successful in reducing Singapore's vulnerability to rainfall extremes, especially given extreme flooding occurring elsewhere recently. Enforced water rationing from drought has not occurred in Singapore for more than 50 years, thanks to effective PUB policies.

Singapore, however, still imports about half of its daily water supply from Johor. A prolonged El Nino episode, potentially strengthened by climate change, could lead to a repeat of low water levels in the critical Linggiu Reservoir such as in 2016.

While the Republic can adapt to drought by ramping up Newater and desalination production, these technological approaches are economically and environmentally costly. Water produced by these methods is considerably more expensive than imported water, and also energy intensive.

While there is justified confidence that technological advancements in desalination and Newater will lead to cost decreases, a more prudent and immediate drought adaptation approach is to reduce water use through changing consumption behaviour.

Water use in Singapore is still high relative to other cities, and several of my colleagues from the National University of Singapore point out that individual and commercial water demand can be lowered to reduce drought vulnerability.

This demand-side approach can be effected through consumer awareness of these water costs or with reasonable and judicious increases in water tariffs.

An additional, and unwelcomed, El Nino-related regional climate impact is that it enhances conditions in which South-east Asia wildfires can occur and rapidly spread.

The local devastation from fires within Sumatra and Borneo in 2015 was catastrophic. Given the right wind direction, smoke particulates from wildfires in Borneo and Sumatra can reach Singapore as transboundary haze.

While commendable cross-border preventive action within Asean has arguably lowered wildfire and haze risks since 2015, such efforts have occurred in the absence of El Nino conditions.

The effectiveness of these adaptation measures will be tested when El Nino events occur again.

RISING SEAS AND MELTING ICE

The last and most severe climate impact Singapore faces in the next 50 years and beyond is sea level rise. This is caused by thermal expansion of sea water volume and from melting land ice.

The average sea level around Singapore's coasts has risen steadily at a rate of between 1.2mm and 1.7mm per year, and is projected to increase to about 1m by 2100.

Even though the magnitude of these increases may appear to be minute, sea level rise is the most severe climate impact for two reasons.

First, future projections have considerable uncertainties about the melt rates of land ice in regions such as Greenland. We are certain that if the massive Greenland ice sheets completely melt, global sea level would rise about 7m.

What we are uncertain about is the rate of glacial melt. Current measurements in Greenland strongly suggest that melt rates are vastly underestimated, and ongoing research there suggests that accelerated sea level rise, perhaps more than 1m by 2100, could happen. Indeed, the rate of global sea level rise since 2012 has jumped to 4.5mm per year.

Second, while Singapore has pre-emptively effected coastal policies for adapting to rising sea levels such as by raising minimum land reclamation height from 3m to 4m above mean sea level, neighbouring areas that Singapore depends on for its survival are significantly more vulnerable to rising waters.

Low-lying rice fields in Thailand and Indonesia are important regions for Singapore's food supply, and the capacity to adapt to sea level rise in these countries is either inefficient or lacking.

Furthermore, numerous people living in neighbouring coastal settlements could be permanently displaced by rising waters. The socio-political effect and consequences of these climate refugees in this region are as yet unknown.

MITIGATION AND ADAPTATION

Clearly, Singapore's present climate change adaptation has been successful in staving off the worst impacts we have seen elsewhere. Yet, it is increasingly clear that adaptation by itself has a limit in reducing Singapore's vulnerability to climate change, especially with sea level rise.

So what can be done?

Mitigation of GHG emissions is sorely needed, in keeping with the Paris pledges, in Singapore and elsewhere.

While this current year of climate action has led to undoubted and important increases in local awareness, it has also seen the belated announcement of a Singapore carbon tax of $5 per tonne of GHG emissions, to be implemented next year. This tariff will eventually triple by 2030, and is aimed at encouraging more efficient use of non-renewable energy.

Encouragingly, initial carbon tax revenues will primarily be used for renewable energy innovations and transformation of emission-intensive local industries.

Time will tell if the efficacy of Singapore's mitigation efforts will work, and more can and should be done given the urgency of climate change and its impacts. But it is undoubtedly a solid start towards reducing local carbon intensity and total emissions per Paris.

•Dr Winston Chow is an assistant professor at the Department of Geography, National University of Singapore. He is also affiliated with the Institute of Water Policy, Lee Kuan Yew School of Public Policy at NUS. His research examines how cities affect weather and climate, and how weather and climate affect cities. He is a principal investigator in the coolingsingapore.sg initiative, and will be a lead author in the chapter on Cities, Settlements And Key Infrastructure for the forthcoming Sixth Assessment Report of the Intergovernmental Panel on Climate Change. Dr Chow tweets sporadically on science and geography topics unrelated to climate change, and can be reached on Twitter @winstontlchow.


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New accreditation scheme and framework for professionals working on green buildings

Hariz Baharudin Straits Times 6 Sep 18;

SINGAPORE - A new accreditation scheme and developmental framework is to be launched for professionals involved in creating environmentally friendly buildings.

The Singapore Green Building Council's (SGBC) Green Professionals Accreditation Scheme will consolidate the 820 professionals - such as engineers, architects and facility managers - currently on the Certified Green Mark Managers and Professionals register that is maintained by the Building and Construction Authority (BCA).

A developmental framework will be drawn up to advance their expertise and ensure their professional development, through the deepening of their technical knowledge and skills.

More details of the new scheme, such as when it will be launched, will be announced later.

SGBC president Tan Swee Yeow announced the developments at the council's gala dinner on Thursday (Sept 6), adding that they were in line with the aims of the Construction Industry Transformation Map announced last October.

He said: "We seek to uplift the profile of our green professionals and specialists, and to develop a dedicated continuing education and training framework to support the developmental needs of our green-collar workforce."

Mr Tan added that the council is working with BCA on the new scheme.

Senior Minister of State for the Environment and Water Resources and Health, Dr Amy Khor, who was the guest of honour, said: "With the building sector accounting for 17 per cent of our total greenhouse gas emissions, deepening green building expertise will help to mitigate our level of emissions.

" I am heartened that SGBC has demonstrated strong commitment to take the lead in climate action."

Mr Tan also announced that the BCA and SGBC will work together to transform workplaces into healthier spaces for employees and occupants, such as by developing resources, including a website.

Dr Khor said: "By conserving the use of resources, and adopting energy-efficient features or renewable energy, green buildings are not only environmentally friendly, but also help to lower costs.

"SGBC will step up efforts to encourage building tenants to achieve greener and healthier workplaces by having a good indoor environment, setting environmental performance targets, and enacting energy action plans."

During the gala dinner, which was attended by more than 650 industry representatives from Singapore and the region, the World Green Building Council Asia Pacific Leadership in Green Building Awards were also presented.


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Indonesia: Drought affects 22 districts, cities in West Java

Antara 6 Sep 18;

Drought has affected 22 districts and cities in West Java Province since August this year, causing water shortage.. (ANTARA /Dedhez Anggara)

Bandung, W Java (ANTARA News) - Drought has affected 22 districts and cities in West Java Province since August this year, causing water shortage.

"Based on data as of Sept 5, a total of 286,802 households face water shortage," Budi Budiman, an official of the local disaster mitigation office (BPBD), stated here, Wednesday.

The affected districts and municipalities are Bogor District, Bogor Municipality, Puwarkarta, Sukabumi District, Sukabumi Municipality, Bekasi District, Karawang, Cianjur, West Bandung, Bandung, Cimahi, Garut, Tasikmalaya, Sumedang, Indramayu, Tasikmalaya Municipality, Cirebon District, Cirebon Municipality, Kuningan, Banjar, Ciamis, and Pangandaran.

The prolonged dry season has also affected farming areas measuring 41,946 hectares.

The West Java provincial administration has declared a drought emergency alert from August to October 2018.

The local BPBD has, so far, distributed a total of 4,307,915 liters of clean water to those affected by the drought.

Meanwhile, Coordinating Minister for Political, Legal, and Security Affairs Wiranto has urged all the parties to be aware of the possibility of a prolonged drought in 2018.

"Due to a change in the weather conditions, the drought can last longer, and we must be aware of this," Wiranto recently stated at the Jakarta Presidential Palace.

He said that the hot dry season had led to forest and land fires in Sumatra and Kalimantan.

"Yes, there are forest and land fires since this is the dry season," Wiranto noted.

The former Indonesian Armed Forces Commander remarked that the government had reminded all parties to be prepared in advance.

Wiranto said that the number of cases of forest and land fires (karhutla) until August 2018 was lower than that reported in the previous year.

"Compared with last year, the fires are now less, as we were seriously prepared and all of us are making `all-out` efforts," Wiranto, who is also the former chairperson of the People`s Conscience Party (Hanura), explained.

According to Wiranto, preparations have been made by the task force, which is incorporated in Manggala Agni, and other parties.

Preparations have also been made with the construction of embungs, water pumps, integrated patrols, and water bombers.

"It is more powerful and stronger than before. We have done it. If we still have it, we will finish it," he emphasized.

He noted that specifically in Palembang, South Sumatra, some time ago, weather modification had been conducted that ensured rain in the area.

"Weather modification was conducted, but not every day, as the BNPB along with the Indonesian Air Force conduct such operations," he revealed.

He noted that cloud seeding cannot be conducted at any time, but attention must be paid to the cloud conditions.

"Salt is sown if there are clouds. If salt is sprinkled but there are no clouds, then no rain will be received," he added.

Reporting by Asep Firmansyah
Editing by Fardah, Eliswan
Editor: Fardah Assegaf


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