Tuesday, January 14, 2014

Epilogue


Credits: Daila0701
We have finally reached the end of this four month long project. This has been one of the most challenging piece of work done in my three years of university as it calls for a high level of consistency and effort to be put in every week. But I’m glad I did because it gave me a chance to dive deep into a topic that I have been so interested in.

Thank you to all who have followed my posts week after week and participated in the discussions through the comments section.

Here are the compiled links to all my posts in the Journey series, so for those who have missed any do check them out!

Journey Part 2: Natural disaster trends
Journey Part 10: Is there hope? 

-----

As we live in this haphazard world, let’s be brave and trudge on. 

Friday, January 10, 2014

Is there hope?


In all the posts thus far in this blog, we have sought a better understanding of the links between climate change and natural disasters and can conclude that in most cases, there are possibilities that recent anthropogenic climate change can have significant impacts on the future trends of natural disasters. Indeed, large uncertainties are still involved in these studies but as Bill McGuire asserts, human’s climate-changing activities seem to be loading the dice in favour of more natural disasters. In face of this imminent doom and gloom, is there still hope for future societies?

Looking in the past, previous studies have revealed that climate change might have played a part in the demise of some civilisations. Hodell et al. (1995) and Haug et al. (2003) found evidence that show that the collapse of the Maya Civilisation coincided with an extended period of aridity and abrupt drought events between 750-900A.D. Cullen and deMenacol (2000) showed that the North Atlantic Oscillation has an influence on the streamflow of the Tigris and Euphrates Rivers and that cooling of the North Atlantic occurred just before the fall of the Akkadian empire. Over in East Asia, Zhang et al. (2005) suggested that most of the dynastic transitions and nationwide social unrests and 70-80% of war peaks in China occurred in cold phases. They argue that colder temperatures limited food productivity of the land and thus caused deficiency of livelihood resources across society. All of these studies have been careful to avoid the notion of environmental determinism. They are not trying to show that climate is a determinant of societal progress but that environmental conditions can impose limits on societies through things like food production and land use (Marshall 2012).   
Map showing how climate change might have been associated with the fall of some civilizations across the world in the past. Source: New Scientist
That said, however, climate change is only one factor, out of many others, that can alter the risks of natural disasters (Mercer 2010). Disaster risk can still be exacerbated even without climate change due to poor land use planning and population increase. For example, rapid urbanisation has overwhelmed the infrastructure of Manila, causing many of the poor to settle at the city periphery and other landslide-prone areas. It has been estimated that almost three million people are living in makeshift quarters in unstable areas. Meanwhile, during the Szechuan Earthquake in 2008, the poor construction quality of buildings, known as tofu buildings, were blamed for the high death tolls. In Florida, people continue to flock towards
Tofu buildings that collapsed during the Szechuan
earthquake in 2008. Credits: AFP
the coast, with more than 90% of its residents living on the coast despite the mounting threats of hurricanes and sea level rise by the end of the century. As such, the outcomes of extreme events are also dependent on the development choices of human societies. In the SREX report (IPCC 2012), the IPCC acknowledges that climate change is often viewed as a slow-onset, long-term problem and that adaptation strategies invariably require trade-offs to be made. Hence governments with short terms of office are often reluctant to invest in climate adaptation measures, since they might not produce any tangible results within their term of office. For many poor countries, the priority would often be to channel money into places that require them most urgently instead of building climate and disaster resilience. Therefore, what is needed over time is a high level of trust between the people and the government, a more long-term approach to planning, a willingness to experiment and innovate new ways to deal with climate change and disasters, flexibility in systems, engagement of civil society in planning and help given to poorer countries to build their resilience (IPCC 2012; Norris et al. 2008; Pearce 2003). Given that there are also still large uncertainties involved, governments need develop and prepare for different possible scenarios that could happen in the future.

Nonetheless over the years, there has been encouraging evidence from around the world to show that all hope is not lost with regards to natural disasters. Human societies have been able to bounce back up time and time again after being hit with natural disasters. It has been nine years since the Boxing Day Indian Ocean tsunami of 2004. Survivors have been trying to rebuild their lives ever since including those on the island of Dhavaafuru in the Maldives, where infrastructure such as road and school are being built from scratch. Moreover, while there was a lack of early warning systems back in 2004, there is now an operating tsunami early warning system made up of a network of seismographic centres and tsunami-detection buoys in the region that can alert the public of a tsunami quickly. Likewise in the Mohak Sharif village in rural Pakistan, a new eco-village has been rebuilt after being devastated by floods back in 2011 through the combined efforts of its residents and the Heritage Foundation. Meanwhile, we have also seen cases where innovative solutions have been implemented to help develop the resilience of communities towards natural disasters. The Netherlands has been known to be consistently suffering from floods due to its low-lying location. However, they have actively been trying to build their resilience towards floods,
An artist's impression of the Room for the River
project. Credits:http://www.ruimtevoorderivier.nl
with their latest plan to redesign their cities to make room for their river. Instead of building their dykes higher to restrict floodwaters from entering the city, they are  digging a new channel for the river and to move their dykes further inland so that there is more space for water to flow. All these have only been possible due to sheer will and effort by all members of the society.

Is there hope? I believe there is hope for the future but only if governments and societies are willing to commit themselves to climate adaptation and disaster resilience and reconcile both their short-term and long-term values and goals. It is hence a political choice that must be made and one that ought to be made soon so that there will be more time available to prepare for what is to come. 

Saturday, January 4, 2014

Can climate change affect earthquakes and volcanic eruptions?


Over the past 14 weeks or so, we have moved from looking at hurricanes to floods to droughts and to bushfires. The links between climate change and these natural disasters have been relatively more apparent and there is a massive pool of literature that has been dedicated to these disasters. In this penultimate post of my three-month long project, we shall explore the links between climate change and earthquakes and volcanic eruptions. I have actually been looking forward to writing this blogpost ever since this project started given that unlike the other natural disasters, volcanic eruptions and earthquakes have not been commonly associated with recent climate change. I have been eager to find out if there are indeed any credible theories that suggest that recent/future climate change has/can affect the frequency and intensity of earthquakes and volcanoes. So let’s begin!

Credits: European Geosciences Union and Associated Press


While doing my research, I found that one of the strongest proponents of this topic has been Prof Bill McGuire from UCL, who published the book ‘Waking the Giant: How a changing climate triggers earthquakes, tsunamis and volcanoes’ back in 2012. The video below summarizes his points from the book:


There has actually been very little peer-reviewed journal papers that discuss the links between recent climate change and earthquakes/volcanic eruptions. The papers that do have mostly been published in the Philosophical Transactions of the Royal Society in its Theme Issue ‘Climate forcing of geological and geomorphological hazards’. Hence, in this post, I will be basing my analyses on the book by McGuire as well as several journal articles from the themed issue mentioned above.

Given that climate change is mostly associated to changes in the atmosphere and hydrosphere, it might be a little far-fetched to some that climate change would affect the geosphere. However, if we look to the past, there is evidence that climate change has indeed affected the frequency and intensity of volcanic eruptions and earthquakes. After the Last Glacial Maximum, rapid warming caused a major reorganisation of the global hydrological cycle as the continental ice sheets melted and resulted in sea level rise of the order of >100m. The unloading of mass through the melting of ice reduced the pressure on the crust and induced significant stress changes in the crust. Modifications of the pattern of stress and strain triggered volcanic and seismic activity, marine landslides and tsunamis that were of much greater intensity than those in the present climate (McGuire 2010). Meanwhile, the loading of mass in the oceans basins as water is transferred from the ice sheets into the oceans can also alter stress patterns and trigger earthquakes. Podolskiy (2009) highlights the case of the Caspian Sea, which underwent a natural rapid rise in water level of 235cm between 1978 and 1995. This rapid filling of water increased the weight on the basin within a short period of time and caused a number of earthquakes on its coastline.

Likewise, changes in the distribution of ice and water around the world also have consequences on volcanic activity. Volcanoes erupt when the pressure increases past a tipping point as the magma builds up from within. Hence, events that cause changes in stress can affect the pressure build up within the volcano and trigger an eruption. The retreat of ice sheets and ice caps, causing the reduction in pressure on the crust, can provide this trigger (Palgi and Sigmundsson 2008). It is posited that the decompression of the crust would reduce the pressure at depth in the mantle, promoting melting and the generation of magma (Sigmundsson et al. 2010). This might have caused volcanic activity to be ten times more frequent in Iceland just after the last glacial period, just as the ice sheet that covered Iceland melted (Sigmundsson et al. 2010). Moreover, recent studies on the Vatnajökull ice cap have suggested that recent thinning under the present warming climate has produced an additional 0.014km3/year of magma under Vatnajökull (Pagli and Sigmundsson 2008).

However, the critical question is whether under present/future climate change, will there be an increase in the seismic and volcanic activity as seen in the past glacial/interglacial transition periods? Indeed, the present climate is nowhere similar to the post-LGM period, however, McGuire (2012) speculates that present and future climate change would be sufficient to induce a geospheric response. At present, small ice masses are already thinning and retreating, as with the Vatnajökull ice cap, resulting in load pressure reductions of 0.5MPa or more (Sauber et al. 2000; Tuffen 2010). Meanwhile, according to the IPCC AR4 report, the projected sea level rise will range from 0.18 and 0.59m. A 0.59m of additional water mass would correspond to a 5.7kPa increase in pressure on the crust in the ocean basins (Podolskiy 2009). Although these changes are relatively small, both in terms of absolute values and rates, McGuire (2010) argues that there is a growing body of evidence to show that small changes in environmental conditions can still trigger seismic and volcanic activity. This includes Hainzl et al. (2006) that suggested that at times when the Earth’s crust is so close to failure, pore-pressure variations of less than 1kPa caused by heavy rainfall is enough to trigger earthquakes.  

The areas of greatest concerns are those at the higher latitudes or altitudes in excess of 4000m (Tuffen 2010). At these areas, ice bodies are still present and hence should they continue to undergo melting and recession under a warming climate, they might be able to create changes in patterns of stress and strain and induce seismic responses. Moreover, as the ice sheets that buries volcanic systems such as the Vatnajökull, or ice caps found on volcanoes such as Kilimanjaro disappear by the end of the century, it is worried that the decompression might induce mantle melting and cause more frequent eruptions.

As shown above, the links between climate change and volcanic eruptions and earthquakes seem to be apparent. Indeed, there is a consensus among the scientific community that climate change had affected the frequency and intensity of seismic and volcanic activity in the past, especially during glacial/interglacial transitions. However, it is important to note that the hypothesis that future climate change would have similar impacts on the geosphere have received a lukewarm response thus far. This is most likely due to the fact that we are uncertain of the sensitivity of the geosphere to small changes in ice thickness and ocean loading (Tuffen 2010) and hence are still not totally convinced that future climate change would be sufficient to affect patterns of volcanic eruptions and earthquakes.

--------
This marks the last two categories of natural disasters that I will be covering as part of this series. Phew, we have come a long way! Check back next week as I do a wrap up for the project and look back at what we have done these past few months!