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Transforming Transportation 2018: To Craft a Digital Future for All, We Need Transport for All

Jose Luis Irigoyen's picture



Exponential progress in how we collect, process and use data is fundamentally changing our societies and economies. But the new digital economy depends fundamentally on a very physical enabler. Amazon and Alibaba would not exist without efficient ways to deliver products worldwide, be it by road or ship or drone. The job you applied for through Skype may require travel to London or Dubai, where you’ll expect to get around easily.

In fact, as the backbone of globalization, digitization is increasing the need to move people and goods around the planet. Mounting pressure on transportation as economies grow is leading to unsustainable environmental and safety trends. Transport needs are increasingly being met at the cost of future generations.

Can the digital revolution, which depends so much on efficient global and local mobility, also help us rethink transportation itself? To be a part of the solution to issues such as climate change, poverty, health, public safety, and the empowerment of women, the answer must be yes. Transport must go beyond being an enabler of the digital economy to itself harnessing the power of technology.

Innovation in the air: using cable cars for urban transport

Leonardo Canon Rubiano's picture
Also available in: Español
Photo: Andy Shuai Liu/World Bank

Invented over a century ago for exploring mountainous regions, aerial cable cars have recently made an appearance in several big cities, where they are being used as an alternative to conventional urban transport modes. This technology uses electrically-propelled steel cables to move suspended cars (or cabins) between terminals at different elevation points.
 
The tipping point. The emergence of cable cars in urban transport is fairly new. Medellín, Colombia pioneered the use of cable cars for urban transport when it opened its first “Metrocable” line in 2004. Since then, urban cable cars have grown in popularity around the world, with recent projects in Latin America (Rio de Janeiro, Caracas, Guayaquil, Santo Domingo, La Paz, and Medellín), Asia (Yeosu, South Korea, Taiwan, Hong Kong), Africa (Lagos, Constantine), and Europe (London, Koblenz, Bolzano).  Cable cars can be an attractive urban transport solution to connect communities together when geographical barriers such as hills and rivers make other modes infeasible.

Africa is paving the way to a climate-resilient future

Tara Shirvani's picture


Since the presentation of the World Bank’s first Africa Climate Business Plan at the COP 21 in Paris in 2015 and the Transport Chapter in Marrakech in 2016, a lot of progress has been made on integrating climate adaptation and mitigation into our transport projects.

The World Bank initially committed about $3.2 billion toward mainstreaming climate action into transport programs in Sub-Saharan Africa in the form of infrastructure investments and technical assistance. Following the Paris Agreement, and building on African countries’ Nationally Determined Contributions (NDCs), the size of this portfolio grew to $5 billion for 2016 to 2020.  In 2017, the institution added another $1.9 billion to that amount, bringing the total to $6.9 billion in projects with climate co-benefits— more than twice the size of the original portfolio. These investments will help improve the resilience of transport infrastructure to climate change and improve the carbon footprint of transport systems.
 
Climate change has already started to affect African countries’ efforts to provide better transport services to their citizens.  African transport systems are vulnerable to multiple types of climate impact: sea level rise and storm surge, higher frequency and intensity of extreme wind and storm events, increased precipitation intensity, extreme heat and fire hazard, overall warming, and change in average precipitation patterns. The increased frequency and intensity of extreme climate event challenges the year-round availability of critical transport services: roads are damaged more often or are more costly to maintain; expensive infrastructure assets such as ports, railways or airports can be damaged by storms and storm surges, resulting in a short  life cycle and capacity than they were originally designed for. Critical infrastructure such as bridges continue to be built based on data and disaster risk patterns from decades ago, ignoring the current trend of increased climate risk. For Sub-Saharan Africa alone, it is estimated that climate change will threaten to increase road maintenance costs by 270% if no action is taken.

Three reasons why maritime transport must act on climate change

Nancy Vandycke's picture


For years, the transport sector has been looking at solutions to reduce its carbon footprint. A wide range of stakeholders has taken part in the public debate on transport and climate change, yet one mode has remained largely absent from the conversation: maritime transport.

Tackling emissions from the shipping industry is just as critical as it is for other modes of transport. First, international maritime transport accounts for the lion’s share of global freight transport: ships carry around 80% of the volume of all world trade and 70% of its value. In addition, although shipping is considered the most energy-efficient mode of transport, it still uses huge amounts of so-called bunker fuels, a byproduct of crude oil refining that takes a heavy toll on the environment.

Several key global players are now calling on the maritime sector to challenge the status quo and limit its climate impact. From our perspective, we see at least three major reasons that can explain why emissions from maritime transport are becoming a global priority.

Resilient transport investments: a climate imperative for Small Island Developing Countries

Franz Drees-Gross's picture
This blog post was co-authored by Franz Drees-Gross, Director, Transport and ICT Global Practice, and Ede Ijjasz-Vasquez, Senior Director, Social, Urban, Rural and Resilience Global Practice.



Transport in its many forms – from tuk-tuks in Thailand to futuristic self-driving electric cars – is ubiquitous in the lives of everyone on the planet. For that reason, it is often taken for granted – unless we are caught in congestion, or more dramatically, if the water truck fails to arrive at a drought-stricken community in Africa.

It is easy to forget that transport is a crucial part of the global economy. Overall, countries invest between $1.4 to $2.1 trillion per year in transport infrastructure to meet the world’s demand for mobility and connectivity. Efficient transport systems move goods and services, connect people to economic opportunities, and enable access to essential services like healthcare and education. Transport is a fundamental enabler to achieving almost all the Sustainable Development Goals (SDGs), and is crucial to meet the objectives under the Paris agreement of limiting global warming to less than 2°C by 2100, and make best efforts to limit warming to 1.5°C.

But all of this depends on well-functioning transport systems. With the effects of climate change, in many countries this assumption is becoming less of a given. The impact of extreme natural events on transport—itself a major contributor to greenhouse gas emissions—often serve as an abrupt reminder of how central it is, both for urgent response needs such as evacuating people and getting emergency services where they are needed, but also for longer term economic recovery, often impaired by destroyed infrastructure and lost livelihoods. A country that loses its transport infrastructure cannot respond effectively to climate change impacts.

Climate finance: why is transport getting the short end of the stick?

Shomik Mehndiratta's picture
Going nowhere fast... Photo: Simon Matzinger/Flickr
Climate change is a global challenge that threatens the prosperity and wellbeing of future generations. Transport plays a significant role in that phenomenon. In 2013, the sector accounted for 23% of energy-related carbon emissions… that amounts to some 7.3 GT of CO2, 3 GT of which originate from developing countries. Without any action, transport emissions from the developing world will almost triple to reach just under 9 GT of CO2 by 2050.

In previous posts, we’ve explored the policies that would maximize a reduction of transport emissions. But how do you mobilize the huge financial resources that are required to implement these policies?  So far, transport has only been able to access only 4.5% of Clean Development Mechanisms (CDM) and 12% of Clean Technology Funds (CTF). Clearly, the current structure of climate finance does not work for transport, and three particular concerns need to be addressed.

How to protect metro systems against natural hazards? Countries look to Japan for answers

Sofía Guerrero Gámez's picture
Also available in: 日本語
Photo: Evan Blaser/Flickr
The concentration of population in cities and their exposure to seismic hazards constitute one of the greatest disaster risks facing Peru and Ecuador. In 2007, a magnitude 8.0 earthquake along the southern coast of Peru claimed the lives of 520 people and destroyed countless buildings. The most recent earthquake in Ecuador, in 2016, left more than 200 dead and many others injured.
 
Of course, these risks are not exclusive to Latin America. Considered one of the most earthquake-prone countries in the world, Japan has developed unparalleled experience in seismic resilience. The transport sector has been an integral part of the way the country manages earthquake risk— which makes perfect sense when you consider the potential consequences of a seismic event on transport infrastructure, operations, and passenger safety.

地下鉄システムを自然災害から守るには:日本に答えを求める海外の国々

Sofía Guerrero Gámez's picture
Also available in: English
写真: Evan Blaser/Flickr
ペルーとエクアドルが抱える災害リスクの中でも特に大きな問題は、都市への人口集中と地震災害に対する脆弱性です。2007年、ペルー南部の沖合でマグニチュード8.0の地震が発生し、520人の命を奪い、数え切れないほどの建物が損壊しました。2016年にエクアドルで起きた最近の地震の犠牲者数は200人を超え、さらに多くの人が負傷しました。

もちろん、こうしたリスクは中南米の国だけに存在するわけではありません。世界有数の地震多発国である日本は、耐震性に関して他に例を見ない経験を培ってきました。国による地震リスクの管理体制の要となってきたのは交通セクターです。地震が交通インフラとその運営、乗客の安全に与えるであろう影響の大きさを考えれば、それも当然のことと言えるでしょう。

Why sustainable mobility matters

Hartwig Schafer's picture
Photo: Mariana Gil/WRI
In the 1960s, the vision of future mobility was people with jet packs and flying cars – we believed these innovations wouldn’t be far off after the moon landing in 1969. Obviously, the reality in 2017 is somewhat different.

Today, we have congestion in cities, rural areas cut off from the rest of the world, and too many people without access to safe, efficient, and green transport. This stifles markets and hinders people from the jobs that will help them escape poverty. Without access to sustainable mobility, it will be much harder—if not impossible— to end poverty and achieve the Sustainable Development Goals (SDGs).

And perhaps the most tragic reality is this: that approximately 1.3 million people die each year in traffic-related incidents. Young people, those between the ages of 15-29, are the most affected by road crashes. This heartbreaking and preventable loss of life should be a clear signal that road safety matters.

At the same time, how we change transport is vitally important and will impact generations to come.

Sustainable mobility: Who's who and who does what?

Shokraneh Minovi's picture


Some might call it an existential question. Some may be surprised that the answer is not clear. When it comes to sustainable mobility initiatives and stakeholders, who is who, and who does what? Addressing these questions is a key pre-requisite to the transformation of the transport sector and the realization of the Sustainable Development Goals.

The SDGs, the Global Decade of Action for Road Safety, the Nationally Determined Contributions (NDCs), the Vienna Programme of Action for Landlocked Developing Countries, over 100 different organizations and initiatives… It’s enough to make your head spin! As the world increasingly recognizes the importance of mobility to the overall sustainable development agenda, the number of stakeholders in this arena has been growing steadily. Although many established groups have been warning us for years about the role of transport in the fight against climate change—the sector accounts for some 23% of all energy-related greenhouse gas emissions—many newer players are now adding their voice to the global conversation.

From public transport agencies to car companies and ride-sharing platforms, clean fuel advocates, maritime transport groups, and electric vehicle proponents, a dizzying array of sector-specific initiatives have emerged over the last few years. Newer city-specific coalitions, such as the C40 Cities Climate Leadership Group and the Compact of Mayors, have played a critical role in relaying these concerns at the local level. However, global initiatives have been the ones that have seen the most impressive growth. Also in the mix are globally minded, from UN entities to smaller NGOS, as well as region-specific organizations such as regional development banks.

What’s the solution to untangling this web of stakeholders? Over the past six months, the World Bank, with support from the World Economic Forum, has mapped out major transport initiatives and organizations as comprehensively and systematically as possible.

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