Green Spaces

While the previous example of sustainable development focuses on structure, green space is about open spaces in urban areas., such as foliage-filled public parks and recreation areas. 

Data says more than two-thirds of the world's population will live in cities2. It will be crowded with buildings and infrastructures to support the people, and nature needs more space to grow and thrive.

We can improve air quality by having more green spaces full of trees. Aside from producing oxygen, trees regulate rainwater by filtering out pollutants.

Addressing the urban island heat effect is also vital. This phenomenon refers to the trapped heat generated by human activities, specifically roads and other concrete structures. By adding green rooftops, people can save the energy used for cooling. 

Green spaces in urban regions  could be parks, community gardens, or rooftop gardens. These spaces help us control insects and improve biodiversity. They will also enhance the quality of living.

Sustainable Forestry

Sustainable forestry is managing forests to meet society's current needs and desires while preserving forest resources. We achieve sustainable development of forests by considering the economic, social, and ecological aspects of sustaining a forest. The three ways to manage forests are preservation, rehabilitation, and reforestation techniques. 

Preservation allows us to take necessary precautions to protect our forests from destruction, while rehabilitation and reforestation refer to replanting and replacing a lost forest ecosystem. By sustainably managing our forests, we'll have cleaner air. More trees will grow, and they'll capture carbon and clear air pollution from the atmosphere. 

Also, there will be a reduction in the loss of biodiversity because the environment supports their ecosystem. Sustainable forest management will reduce flooding because trees are a barrier to water streams. Thus slowing them down. 

Another example of sustainable forest management techniques is selective logging to prevent excessive deforestation. There's also controlled burn and treatment of tree diseases, providing better water quality for humans and wildlife.

What are SDGs?  

Sustainable development goals (SDGs) are a call to action to end poverty and inequality, protect the planet, and ensure people enjoy good health, justice, and prosperity. In a nutshell, SDGs aim to change the world without leaving anyone behind. 

In 2015, all member countries of the United Nations decided to implement the 2030 Agenda for Sustainable Development. All the examples of sustainable development above are aligned with this plan.

17 interconnected goals balance economic development, social inclusion, and environmental sustainability. Here are the 17 SDGs that need global attention and action:

No Poverty
Zero hunger
Good health and wellbeing
Quality education
Gender equality
Clean water and sanitation
Affordable and clean energy
Decent work and economic growth
Industry, innovation, and infrastructure 
Reduced inequalities
Sustainable cities and communities
Responsible consumption and production
Climate action 
Life below water
Life on land
Peace, justice, and strong institutions
Partnerships for the goals
Conclusion: All About Sustainable Development Examples, Goals, And More

The extraction and usage of raw materials like fossil fuels and poor waste disposal methods are the major contributors to the environmental decline. However, examples of sustainable development have shown that we can get essential services in environmentally friendly ways. 

For instance, renewable energy reduces greenhouse gas emissions by providing sustainable energy. Green spaces bring nature closer to people living in cities. It also protects biodiversity. Crop rotation protects soil health and improves agricultural produce, while sustainable manufacturing uses more recycled materials. 

Other examples of sustainable development include sustainable concrete and mobility, efficient lighting, and green tourism. 

Glossary Terms:
By Jennifer Okafor, BSc.
Jen’s a passionate environmentalist and sustainability expert. With a science degree from Babcock University Jen loves applying her research skills to craft editorial that connects with our global changemaker and readership audiences centered around topics including zero waste, sustainability, climate change, and biodiversity.

Elsewhere Jen’s interests include the role that future technology and data have in helping us solve some of the planet’s biggest challenges.

Can digital innovation support global environmental sustainability

This is a million-dollar question. What is certain is that, over the past few years, sustainability has become one of the most relevant topics in many sectors. The increasing perishment of the planet has raised many questions about our future. Constant debates are in progress worldwide, and companies and people have committed to finding the best solution to achieve sustainability. Innovation and digital transformation appear to be significant strategies that involve disparate sectors and markets.

New digital transformation era

We are currently in the fourth wave of digitalization. The transportation industry has been using digital technology and methods for some time. However, the current digital era is radically transforming the way the industry supports the sustainable development of society, reverses the dramatic consequences of pollution, and helps the world thrive again.

Expectations of how the industry reacts to environmental challenges are quickly evolving, and this new era presents opportunities for both operators and travelers. Therefore, a conscious analysis of all current challenges may represent one of the keys to making public transport even more environmentally sustainable.

Can digitalization transform public transport into a more frequent travel choice and support emission reduction?

What makes public transport more appealing to passengers?

It is not only comfort. Nor is convenience the only expectation that leads customers to opt for a train or a bus, rather than driving their car. They also expect transportation services to be affordable and timely.

The consequences of technologies and new advanced integrated platforms will help the transportation industry move in parallel with the fourth wave of digitalization to meet the changing expectations of the modern commuter.

It appears that the border between transport operators and customers became much thinner than it used to be. Passengers can rely on onboard digital solutions to express preferences in real-time having a more direct and responsible impact on transport operators and their strategic sustainable development. It is not only a matter of data collection at the end of the journey but also a continuous and meticulous control over passengers’ feedback on sustainable solutions.

People believe that sustainability is one of the top priorities in improving our world, and digital transformation seems to be perceived as a key enabler.

Passengers’ expectations in 2050, according to the Statista Research Department, show that:

“96% of passengers stated that they expected that aircraft would need to be more environmentally sustainable in 2050”

Therefore, today the best way to improve services is to work more closely with passengers to fully understand what they need and expect in terms of digital solutions and services. And how these, in turn, drive cleaner and more sustainable transport solutions.

Opportunities to support the environment

The fourth wave of digitalization also referred to as the Internet of Things (IoT), is now contributing to improve the market and create new opportunities for the transportation industry aiming to increase efficiency, lower costs and facilitate accessibility.

IoT is a powerful foundation for enabling sustainable development. Thanks to a plethora of internet-connected devices, collecting data through advanced information technology is now much easier and more accurate.

The data comes from different sources and is typically collected in real time. This volume of data, also known as “Big Data,” can now drive real-time decision-making by transport operators and travelers. Eventually, the collected data will be highly relevant for the strategic planning of any transport provider, which is a crucial step toward the actual development of a more sustainable transport system.

For example, the China Urban Transport Database (CUTD) was developed in 2010 to pursue more sustainable urban transport through “Big Data” collection, analysis, and resulting improvements. China’s need to reduce traffic congestion and air pollution prompted the idea that public transport could represent the most promising way to face and solve these issues. Therefore, the China Urban Transport Database collects essential data to help China tailor sustainable solutions to user needs and expectations

The full potential of IoT goes beyond big data collection. It allows remote vehicle management, which helps prevent and resolve challenges in real-time. For instance, a sustainabl

Taking concrete actions

As of today, we all have a role to play in supporting the SDGs (Sustainable Development Goals), a significant global initiative. The United Nations set these goals in 2015 to promote sustainability and protect the planet. Transportation is a key instrument in achieving the goals. It impacts a wide range of matters, such as health, pollution, energy, and economic growth.

The role played by these goals will have a fundamental meaning in achieving the implementation of all measures for sustainable transportation infrastructure with a CO2 emission reduction of 50% by 2050, as stated by the United Nations.

Looking at the statistics, it appears that the

“Railway energy efficiency has doubled since 1975. Electrification has expanded to cover one-third of the global network and powers almost 45% of all rail activity. Rail companies are choosing to invest directly in renewable energy, which now powers more than 20% of electric-powered trains”

- MOBILIZING for DEVELOPMENT Analysis and Policy Recommendations from the United Nations Secretary-General's High-Level Advisory Group on Sustainable Transport, available  online, p. 35

It is clear that technology significantly impacts all areas of sustainable development and can play an essential role in achieving the goals. New technologies can support sustainable solutions throughout several global angles:

Socially, advanced technology can guarantee better safety, public transport, and increasing affordability. It can make transport more accessible for people with disabilities or the elderly.
Environmentally, technology offers new and enhanced opportunities for a cleaner, more climate-friendly transport system, and less pollution.
Economically, an increase in the efficiency of transport technology results in economic growth through cost-cutting and waste-cutting.
At this stage, it is critical to work together. Investors and decision-makers are expected to create a coworking environment where technological innovations have space to develop and integrate into society strategically. This potential outcome must be drawn over a long-term plan nourished by a futuristic vision and sensitive emphasis on the present moment, where the need for actions around environmental sustainability is stronger than ever before.

We all aim for a better world. We all need significant changes in front of the dramatic degradation affecting our planet. In front of the evidence, mankind has finally developed a much deeper awareness, which is why digital transformation aims to efficiently drive the transportation industry to a new fully sustainable era.

“The answer to these problems is not less transport - it is a sustainable transport. We need more systems that are environmentally friendly, affordable and accessible”  

Former U.N. Secretary-General Ban Ki-moon

External References:

Rusul Abduljabbar, Hussein Dia, Sohani Liyanage and Saeed Asadi Bagloee Department of Civil and Construction Engineering; Swinburne University of Technology, Hawthorn, VIC 3122, Australia, 2019.
The Fourth Wave of Digitalization and Public Transport: Opportunities and Challenges Paul Davidsson, Banafsheh Hajinasab, Johan Holmgren, Åse Jevinger and Jan A. Persson Internet of Things and People Research Center, K2—The Swedish Knowledge Centre for Public Transport, Department of Computer Science, Malmö University, Malmö 20506, Sweden, 2016.
Mariah Venice Afable, Sustainable transport solutions - Mobilizing the world’s sustainability goals, Bold Business Magazine, January 2019.
Transportation Industry Matrix, United Nations and KPMG, 2016.
MOBILIZING for DEVELOPMENT Analysis and Policy Recommendations from the United Nations Secretary-General's High-Level Advisory Group on Sustainable Transport, available online
Sustainable Transport Data Collection and Application: China Urban Transport Database, Tian Jiang, Zhongyi Wu, Yu Song, Xianglong Liu, Haode Liu, and Haozhi Zhang, China Urban Sustainable Transport Research Center, China Academy of

My Perfect New Gym Leaders

Shared video
My Perfect New Gym Leaders

Man Buys Box of Amazon Returns. Instantly Regrets It. (w/@ClimateTown )

Shared video
Man Buys Box of Amazon Returns. Instantly Regrets It. (w/@ClimateTown  )

Taxonomic Classification (Elephant)

Elephants are part of the family Elephantidae within the order Proboscidea. Three extant species are recognized today: African bush, African forest, and Asian elephant.

The African bush elephant is the largest, known for its ears shaped like the African continent. Meanwhile, the African forest elephant, smaller and darker, lives in dense tropical forests.

On the other side of the globe, the Asian elephant is primarily found in the forests and grasslands of the Southeast Asian region. Three recognized subspecies exist: the Indian, Sumatran, and Sri Lankan elephants.

Additionally, recent studies add a fourth subspecies, the Bornean elephant. This population, residing in northern Borneo, sets itself apart by its smaller build yet larger ears, extended tail, and straight tusks. Genetic examinations reveal their diversion from their mainland counterparts about 300,000 years ago. 

According to a 2003 study, this elephant population from Borneo shares its DNA makeup with the elephants that once roamed the Sunda Islands1. The study further suggests a prolonged separation of the Borneo elephants from Southeast Asian elephant populations since the Pleistocene era.

In the following sections, learn where each of them lives and how to distinguish them from each other easily.

African Savanna Elephant (Loxodonta africana)

African Savanna Elephants are the largest terrestrial animals in the world. They are also known as the African bush elephant. Male elephants stand up to 13 feet tall and weigh up to 23,000 pounds. They have large ears and a versatile trunk; their skin is wrinkled and grey-brown. 

These giant herbivores consume almost 330 pounds of food daily throughout various environments across sub-Saharan Africa.

The oldest female in a herd usually leads the group, acting as the matriarch to ensure the safety and well-being of the herd. Moreover, these African elephants engage in practical, fun activities like mud-bathing, protecting themselves from the sun, and keeping parasites away.

African Forest Elephant (Loxodonta cyclotis)

African Forest Elephants live in the dense forests of West and Central Africa. While they live on the same continent, they are a separate species from the savanna elephant. They typically grow up to 9.8 feet tall and weigh up to 15,400 pounds. They also have round heads and straight tusks. 

It mostly eats leaves, tree bark, and a variety of fruits. These types of elephants are the most frugivorous among the elephant species. They defecate the seeds as they travel long distances, making them mega gardeners of the forest.

However, this smaller African Elephant faces rampant deforestation and relentless poaching driven by the global demand for ivory. Their slow reproduction rate makes their survival even more challenging.

Studying them is challenging for scientists since these elephants are shy and tend to gather in smaller family units. Moreover, their habitats are relatively inaccessible.

Green Spaces

While the previous example of sustainable development focuses on structure, green space is about open spaces in urban areas., such as foliage-filled public parks and recreation areas. 

Data says more than two-thirds of the world's population will live in cities2. It will be crowded with buildings and infrastructures to support the people, and nature needs more space to grow and thrive.

We can improve air quality by having more green spaces full of trees. Aside from producing oxygen, trees regulate rainwater by filtering out pollutants.

Addressing the urban island heat effect is also vital. This phenomenon refers to the trapped heat generated by human activities, specifically roads and other concrete structures. By adding green rooftops, people can save the energy used for cooling. 

Green spaces in urban regions  could be parks, community gardens, or rooftop gardens. These spaces help us control insects and improve biodiversity. They will also enhance the quality of living.

Sustainable Forestry

Sustainable forestry is managing forests to meet society's current needs and desires while preserving forest resources. We achieve sustainable development of forests by considering the economic, social, and ecological aspects of sustaining a forest. The three ways to manage forests are preservation, rehabilitation, and reforestation techniques. 

Preservation allows us to take necessary precautions to protect our forests from destruction, while rehabilitation and reforestation refer to replanting and replacing a lost forest ecosystem. By sustainably managing our forests, we'll have cleaner air. More trees will grow, and they'll capture carbon and clear air pollution from the atmosphere. 

Also, there will be a reduction in the loss of biodiversity because the environment supports their ecosystem. Sustainable forest management will reduce flooding because trees are a barrier to water streams. Thus slowing them down. 

Another example of sustainable forest management techniques is selective logging to prevent excessive deforestation. There's also controlled burn and treatment of tree diseases, providing better water quality for humans and wildlife.

What are SDGs?  

Sustainable development goals (SDGs) are a call to action to end poverty and inequality, protect the planet, and ensure people enjoy good health, justice, and prosperity. In a nutshell, SDGs aim to change the world without leaving anyone behind. 

In 2015, all member countries of the United Nations decided to implement the 2030 Agenda for Sustainable Development. All the examples of sustainable development above are aligned with this plan.

17 interconnected goals balance economic development, social inclusion, and environmental sustainability. Here are the 17 SDGs that need global attention and action:

No Poverty
Zero hunger
Good health and wellbeing
Quality education
Gender equality
Clean water and sanitation
Affordable and clean energy
Decent work and economic growth
Industry, innovation, and infrastructure 
Reduced inequalities
Sustainable cities and communities
Responsible consumption and production
Climate action 
Life below water
Life on land
Peace, justice, and strong institutions
Partnerships for the goals
Conclusion: All About Sustainable Development Examples, Goals, And More

The extraction and usage of raw materials like fossil fuels and poor waste disposal methods are the major contributors to the environmental decline. However, examples of sustainable development have shown that we can get essential services in environmentally friendly ways. 

For instance, renewable energy reduces greenhouse gas emissions by providing sustainable energy. Green spaces bring nature closer to people living in cities. It also protects biodiversity. Crop rotation protects soil health and improves agricultural produce, while sustainable manufacturing uses more recycled materials. 

Other examples of sustainable development include sustainable concrete and mobility, efficient lighting, and green tourism. 

Glossary Terms:
By Jennifer Okafor, BSc.
Jen’s a passionate environmentalist and sustainability expert. With a science degree from Babcock University Jen loves applying her research skills to craft editorial that connects with our global changemaker and readership audiences centered around topics including zero waste, sustainability, climate change, and biodiversity.

Elsewhere Jen’s interests include the role that future technology and data have in helping us solve some of the planet’s biggest challenges.

Can digital innovation support global environmental sustainability

This is a million-dollar question. What is certain is that, over the past few years, sustainability has become one of the most relevant topics in many sectors. The increasing perishment of the planet has raised many questions about our future. Constant debates are in progress worldwide, and companies and people have committed to finding the best solution to achieve sustainability. Innovation and digital transformation appear to be significant strategies that involve disparate sectors and markets.

New digital transformation era

We are currently in the fourth wave of digitalization. The transportation industry has been using digital technology and methods for some time. However, the current digital era is radically transforming the way the industry supports the sustainable development of society, reverses the dramatic consequences of pollution, and helps the world thrive again.

Expectations of how the industry reacts to environmental challenges are quickly evolving, and this new era presents opportunities for both operators and travelers. Therefore, a conscious analysis of all current challenges may represent one of the keys to making public transport even more environmentally sustainable.

Can digitalization transform public transport into a more frequent travel choice and support emission reduction?

What makes public transport more appealing to passengers?

It is not only comfort. Nor is convenience the only expectation that leads customers to opt for a train or a bus, rather than driving their car. They also expect transportation services to be affordable and timely.

The consequences of technologies and new advanced integrated platforms will help the transportation industry move in parallel with the fourth wave of digitalization to meet the changing expectations of the modern commuter.

It appears that the border between transport operators and customers became much thinner than it used to be. Passengers can rely on onboard digital solutions to express preferences in real-time having a more direct and responsible impact on transport operators and their strategic sustainable development. It is not only a matter of data collection at the end of the journey but also a continuous and meticulous control over passengers’ feedback on sustainable solutions.

People believe that sustainability is one of the top priorities in improving our world, and digital transformation seems to be perceived as a key enabler.

Passengers’ expectations in 2050, according to the Statista Research Department, show that:

“96% of passengers stated that they expected that aircraft would need to be more environmentally sustainable in 2050”

Therefore, today the best way to improve services is to work more closely with passengers to fully understand what they need and expect in terms of digital solutions and services. And how these, in turn, drive cleaner and more sustainable transport solutions.

Opportunities to support the environment

The fourth wave of digitalization also referred to as the Internet of Things (IoT), is now contributing to improve the market and create new opportunities for the transportation industry aiming to increase efficiency, lower costs and facilitate accessibility.

IoT is a powerful foundation for enabling sustainable development. Thanks to a plethora of internet-connected devices, collecting data through advanced information technology is now much easier and more accurate.

The data comes from different sources and is typically collected in real time. This volume of data, also known as “Big Data,” can now drive real-time decision-making by transport operators and travelers. Eventually, the collected data will be highly relevant for the strategic planning of any transport provider, which is a crucial step toward the actual development of a more sustainable transport system.

For example, the China Urban Transport Database (CUTD) was developed in 2010 to pursue more sustainable urban transport through “Big Data” collection, analysis, and resulting improvements. China’s need to reduce traffic congestion and air pollution prompted the idea that public transport could represent the most promising way to face and solve these issues. Therefore, the China Urban Transport Database collects essential data to help China tailor sustainable solutions to user needs and expectations

The full potential of IoT goes beyond big data collection. It allows remote vehicle management, which helps prevent and resolve challenges in real-time. For instance, a sustainabl

Taking concrete actions

As of today, we all have a role to play in supporting the SDGs (Sustainable Development Goals), a significant global initiative. The United Nations set these goals in 2015 to promote sustainability and protect the planet. Transportation is a key instrument in achieving the goals. It impacts a wide range of matters, such as health, pollution, energy, and economic growth.

The role played by these goals will have a fundamental meaning in achieving the implementation of all measures for sustainable transportation infrastructure with a CO2 emission reduction of 50% by 2050, as stated by the United Nations.

Looking at the statistics, it appears that the

“Railway energy efficiency has doubled since 1975. Electrification has expanded to cover one-third of the global network and powers almost 45% of all rail activity. Rail companies are choosing to invest directly in renewable energy, which now powers more than 20% of electric-powered trains”

- MOBILIZING for DEVELOPMENT Analysis and Policy Recommendations from the United Nations Secretary-General's High-Level Advisory Group on Sustainable Transport, available  online, p. 35

It is clear that technology significantly impacts all areas of sustainable development and can play an essential role in achieving the goals. New technologies can support sustainable solutions throughout several global angles:

Socially, advanced technology can guarantee better safety, public transport, and increasing affordability. It can make transport more accessible for people with disabilities or the elderly.
Environmentally, technology offers new and enhanced opportunities for a cleaner, more climate-friendly transport system, and less pollution.
Economically, an increase in the efficiency of transport technology results in economic growth through cost-cutting and waste-cutting.
At this stage, it is critical to work together. Investors and decision-makers are expected to create a coworking environment where technological innovations have space to develop and integrate into society strategically. This potential outcome must be drawn over a long-term plan nourished by a futuristic vision and sensitive emphasis on the present moment, where the need for actions around environmental sustainability is stronger than ever before.

We all aim for a better world. We all need significant changes in front of the dramatic degradation affecting our planet. In front of the evidence, mankind has finally developed a much deeper awareness, which is why digital transformation aims to efficiently drive the transportation industry to a new fully sustainable era.

“The answer to these problems is not less transport - it is a sustainable transport. We need more systems that are environmentally friendly, affordable and accessible”  

Former U.N. Secretary-General Ban Ki-moon

External References:

Rusul Abduljabbar, Hussein Dia, Sohani Liyanage and Saeed Asadi Bagloee Department of Civil and Construction Engineering; Swinburne University of Technology, Hawthorn, VIC 3122, Australia, 2019.
The Fourth Wave of Digitalization and Public Transport: Opportunities and Challenges Paul Davidsson, Banafsheh Hajinasab, Johan Holmgren, Åse Jevinger and Jan A. Persson Internet of Things and People Research Center, K2—The Swedish Knowledge Centre for Public Transport, Department of Computer Science, Malmö University, Malmö 20506, Sweden, 2016.
Mariah Venice Afable, Sustainable transport solutions - Mobilizing the world’s sustainability goals, Bold Business Magazine, January 2019.
Transportation Industry Matrix, United Nations and KPMG, 2016.
MOBILIZING for DEVELOPMENT Analysis and Policy Recommendations from the United Nations Secretary-General's High-Level Advisory Group on Sustainable Transport, available online
Sustainable Transport Data Collection and Application: China Urban Transport Database, Tian Jiang, Zhongyi Wu, Yu Song, Xianglong Liu, Haode Liu, and Haozhi Zhang, China Urban Sustainable Transport Research Center, China Academy of

My Perfect New Gym Leaders

Shared video
My Perfect New Gym Leaders

Man Buys Box of Amazon Returns. Instantly Regrets It. (w/@ClimateTown )

Shared video
Man Buys Box of Amazon Returns. Instantly Regrets It. (w/@ClimateTown  )

Taxonomic Classification (Elephant)

Elephants are part of the family Elephantidae within the order Proboscidea. Three extant species are recognized today: African bush, African forest, and Asian elephant.

The African bush elephant is the largest, known for its ears shaped like the African continent. Meanwhile, the African forest elephant, smaller and darker, lives in dense tropical forests.

On the other side of the globe, the Asian elephant is primarily found in the forests and grasslands of the Southeast Asian region. Three recognized subspecies exist: the Indian, Sumatran, and Sri Lankan elephants.

Additionally, recent studies add a fourth subspecies, the Bornean elephant. This population, residing in northern Borneo, sets itself apart by its smaller build yet larger ears, extended tail, and straight tusks. Genetic examinations reveal their diversion from their mainland counterparts about 300,000 years ago. 

According to a 2003 study, this elephant population from Borneo shares its DNA makeup with the elephants that once roamed the Sunda Islands1. The study further suggests a prolonged separation of the Borneo elephants from Southeast Asian elephant populations since the Pleistocene era.

In the following sections, learn where each of them lives and how to distinguish them from each other easily.

African Savanna Elephant (Loxodonta africana)

African Savanna Elephants are the largest terrestrial animals in the world. They are also known as the African bush elephant. Male elephants stand up to 13 feet tall and weigh up to 23,000 pounds. They have large ears and a versatile trunk; their skin is wrinkled and grey-brown. 

These giant herbivores consume almost 330 pounds of food daily throughout various environments across sub-Saharan Africa.

The oldest female in a herd usually leads the group, acting as the matriarch to ensure the safety and well-being of the herd. Moreover, these African elephants engage in practical, fun activities like mud-bathing, protecting themselves from the sun, and keeping parasites away.

African Forest Elephant (Loxodonta cyclotis)

African Forest Elephants live in the dense forests of West and Central Africa. While they live on the same continent, they are a separate species from the savanna elephant. They typically grow up to 9.8 feet tall and weigh up to 15,400 pounds. They also have round heads and straight tusks. 

It mostly eats leaves, tree bark, and a variety of fruits. These types of elephants are the most frugivorous among the elephant species. They defecate the seeds as they travel long distances, making them mega gardeners of the forest.

However, this smaller African Elephant faces rampant deforestation and relentless poaching driven by the global demand for ivory. Their slow reproduction rate makes their survival even more challenging.

Studying them is challenging for scientists since these elephants are shy and tend to gather in smaller family units. Moreover, their habitats are relatively inaccessible.