We’ve all heard about the concept of climate change–the earth is getting warmer as greenhouse gasses trap heat in the atmosphere, glaciers are melting, turtles are dying, etc. But as we hear these things again and again, it’s easy to block them out and tell ourselves that we don’t really need to be doing anything, that global warming really isn’t that bad, and that we can just go on with our lives as normal. After all, we still have drinking water, an adequate amount of food, and a warm bed to sleep in at night.

However, there’s more carbon dioxide in the atmosphere than at any point in time in the last 800,000 years. The forecasts that scientists have made for the next century are incredibly dire.

Human activity such as deforestation and fossil fuel burning have caused an increase of carbon dioxide in the atmosphere, and the most immediate effect of this is the rise in global temperature. Since the 19th century, the earth’s temperature has risen 2 degrees Fahrenheit. Although this may not seem like a lot, the effects that it has had on the planet have been far from small. In addition, scientists predict that temperatures are likely to rise by 10 degrees Fahrenheit in the coming century.

As a result of the increase in temperature, the oceans have become warmer, causing glaciers and ice sheets to melt, which then add to the water in the sea. Scientists have estimated that over 4,000 gigatons (equivalent to four billion metric tons) of ice sheets have melted into the ocean, causing weather patterns to change and extreme weather events to occur. Additionally, the sea levels have risen nearly 7 inches in the past century due to melting ice. Scientists believe that this could have massive effects in various places; Venice, for example, is expected to be completely underwater in the next fifty years. But it’s not just the increase in sea water that is causing problems, but the decrease in glacier ice. Normally, the melting glaciers in the northern hemisphere provide a steady stream of freshwater to surrounding ecosystems every summer, and every winter, snowfall replenishes those glaciers. In recent years, however, glaciers have been melting faster than snowfall can replace them. When they’re gone, the animals and plants living in those ecosystems won’t have a steady stream of freshwater.

Extreme events are also increasing in ferocity as a result of climate change. Tropical storms, wildfires, floods, hurricanes, extreme heat, and drought have also grown in frequency and intensity over the years, and this trend is predicted to continue in the coming years. All of these not only have a profound effect on the ecosystems and wildlife on earth, but on humans too—not only because the world will be harder to live in, but because we’re connected in ways that we can’t even imagine to many of the plants and animals that live on earth.

The bottom line is that, as this way of life continues, the costs of climate change will become costlier and harder to control. Perhaps we are living comfortably now–but what about in fifty years, and what about the next generation? The effects of climate change will continue to worsen unless we make significant efforts to reduce greenhouse gas emissions and take care of the planet we were given.

Sources:

https://climate.nasa.gov/effects/

https://www.tomorrow.io/weather/blog/global-warming-status/

Kiribati is an island country made up of a chain of 33 islands in Oceania (the central Pacific Ocean). Though picturesquely beautiful and rich in unique cultures, the country is one of the first to suffer from the damage that climate change has done to our world. Ice caps, ice sheets, and glaciers are all melting, causing rising oceans that threaten an island nation like Kiribati since most of their islands are less than seven feet above sea level (1). Already, two of their islands Abanuea and Tebua Tarawa are under water — they became fully submerged in 1999. Though neither of these islands were inhabited, Tebua Tarawa was popular with fishermen, who now can no longer take advantage of the island. Storm surges are another problem. The sea water that washes ashore during storms floods houses and kills crops. Kiribati soil is not very fertile or accommodating for agriculture as it is, and the salt from storm surges only makes it worse.

Climate change is also causing coral bleaching in the ocean — which in turn causes the fish population to decline — and spoils Kiribati’s fresh water sources. Fish are the main source of protein for the people of Kiribati; with their agricultural prospects looking bleak and their main source of protein diminishing, the people of Kiribati are running out of food. With less access to fresh water, health problems are growing. Typhoid fever, diarrhea, dengue fever, malaria, and leptospirosis are some of the most prominent diseases commonly found in places negatively impacted by climate change. Citizens have tried to build walls made of coral rocks in an attempt to keep the sea water out, but they are ruined in the high tide. The islands of Kiribati will not last much longer, and drastic changes need to be made if the islands are to be saved.

The government and citizens of Kiribati are working to find solutions to their imminent problem. Residents have started to take simple actions, such as moving towns farther inland and planting mangrove trees to keep storm surges at bay. However, these actions alone are not enough. One solution is to build houses on large floating platforms. The problem with this idea is that it would cost around $2 million (2). Considering that the cost of building floating platforms exceeds Kiribati’s GDP (2), this plan is not feasible. At this point, the best solution is to relocate elsewhere. Kiribati’s government bought land in Fiji and currently uses it to grow crops; they also plan to use it as a place to evacuate Kiribati’s citizens if the country does become submerged. The New Zealand government has also opened its borders and allows 75 (3) Kiribatians to migrate there per year.

Kiribati only contributes about 0.6% (4) of the greenhouse gasses in the atmosphere, yet they are disproportionately being affected by climate change. While Kiribati is the one of the first countries to be harmed, it is only a matter of time before more countries are hurting. If climate change continues on its current path, cities as far inland as Los Angeles and London will eventually become submerged as well. Kiribati has joined with other island countries to fight climate change and are openly pushing for policies that cut down on the amount of greenhouse gasses emitted. Kiribati is working to save their islands, but they cannot do it alone. They need the support and cooperation of everyone. Climate change is not a problem that people can solve individually, we all need to work together to fight it.

(1) “Effects of climate change in Kiribati”. The World Bank, uploaded by The World Bank, 8 August 2021.

(2) Iberdrola, n.d., para. 8

(3) Iberdrola, n.d., para. 9

(4) Iberdrola, n.d., para. 6

Cover Photo: BBC Future

Day Zero–the term coined for the date when a city runs out of water. All taps connected to homes and businesses are shut off. Each citizen is limited to a maximum of 25 liters of water per day produced by public water pumps around the city–a far cry from the 300 liters the average person normally uses. Showers, flushable toilets, sinks, washing machines, and gardens are a distant luxury.1 It’s a terrifying thought.

Along the coast of South Africa, Cape Town, a port city home to some five million residents2, has already faced the daunting and very real possibility of a Day Zero. Over half of Cape Town’s water comes from Theewaterskloof Dam, an enormous lake that can hold nearly 500 million cubic meters of water at full capacity. The city’s Department of Water and Sanitation bases all of its restrictions on the amount of water in the dam.

Up until 2014, the dam stayed at a reasonably safe level of 71.9% capacity, but three continuous years of drought caused by the El Niño weather pattern led to a rapid 25% decline in water capacity by 2015. In January of 2016, Level 2 water restrictions were put in place. Gardens and park areas could now only be watered for one hour a day. Capetonians weren’t too concerned about this new development–the constant dry desert climate of South Africa meant that they were always living under Level 1 restrictions.

However, not 10 months later, the Department of Water and Sanitation announced that the situation was now rising into Level 3 restrictions. In June of 2017, the drought was officially declared the worst to occur in over a century, with restrictions now raised to Level 4. Capetonians were strongly encouraged to keep their water usage to 100 liters a day while fountains, water parks, and more were shut down. Even with the continued regulations, the situation only got worse and worse. Theewaterskloof Dam reached a paltry 15% water depth.

At the beginning of 2018, the government declared that Level 6 restrictions would be implemented and Day Zero would occur when the water levels of the dam dropped beneath 13.5%. If Cape Town continued on its downward trend, citizens would have to cut down their working hours to get water from 1 of 149 water pumps located around the city.

It seemed that Day Zero was inevitable. Scientists gave an estimated timeframe of 6 months before it occurred.

Then, a miracle happened. The restrictions, now down to 50 liters a day, began to have an effect. On March 12, 2018, the city only consumed 511 million liters of water, an astonishing achievement given that it used to drain over 1.2 billion liters on an average day. Slowly but surely, the water level stopped dropping. Heavy rainfall during the winter and strong enforcement of the restrictions aided the ascent back to normality. It’s now 2021, and water levels are back at 75%. Potable water is always going to be a struggle for drought-stricken areas like South Africa, but Capetonians have learned to appreciate water as a precious resource and not something to be wasted.

Soon, many other cities will face their Day Zeroes, and not all of them will be able to avert their crises. As water scarcity becomes more prevalent, it’s vital to ask why exactly Cape Town skirted so close to catastrophe before rising back to safety.

The biggest factor is the city’s shocking lack of water filtration infrastructure. Despite being situated right next to the coast, Cape Town only began planning its first desalination plant in 2018 as a reaction to the drought. Regardless of climate and location, regions around the world need to start implementing sustainable solutions to water scarcity. We should adopt the Capetonian mindset that water is a highly limited resource and must be protected at all costs. In the end, the only way to prevent another Day Zero water crisis is to stop it before it even starts–and the only way to stop it is to take action now.

1. https://www.weforum.org/agenda/2019/08/cape-town-was-90-days-away-from-running-out-of-water-heres-how-it-averted-the-crisis/

2. https://www.macrotrends.net/cities/22481/cape-town/population

3. https://www.capetownetc.com/cape-town/theewaterskloof-dam-then-and-now/