Letter from future (2075): Africa, humanity’s first homes beyond earth

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OPINION

By Godfrey Mutabazi

I write to you from the Lunar South Pole, from a place once only imagined in dreams and simulations, a settlement known as Amara Station. The name “Amara” means grace, eternal, and the gift that endures. It is a fitting name for the first permanent human foothold beyond Earth, a place built not by one nation, but through the collective hands of humanity, guided heavily by the ingenuity and resilience of Africa.

Leadership is essential in this regard. Africa requires a reliable and proven framework, one capable of interpreting present realities and predicting future outcomes with clarity. Throughout biblical history, we see a remarkable pattern: every major turning point in the life of a God-appointed leader is marked either by a season of 40 or a moment of 7. These numbers function almost like God’s signature, appearing whenever He is shaping a leader for elevation, transitioning a nation into a new era, or completing a divine assignment. They remind us that leadership is never accidental; it unfolds according to God’s timing, God’s process, and what may be called His spiritual mathematics.

The journey began decades earlier when humanity realised that Earth, though immeasurably precious, could not remain our only home forever. Climate instability, population pressures, and the accelerating technological age made it clear: the future would belong to those who could expand the boundaries of civilisation.

But real space colonisation did not begin with flags or heroic speeches. It began with machines.

Before the first long-duration crew arrived here, thousands of robots, some resembling construction vehicles, others autonomous rovers the size of goats, prepared the ground. They leveled landing pads, extracted frozen water from shadowed craters, and shaped the first blocks of regolith-based concrete. All this under the supervision of orbiting AI command stations. Humans came next, not to conquer the Moon, but to “learn to live with it.”

Africa’s role was decisive in the mid-21st century. Many believed that space belonged to old powers. Yet Africa had something more important than money or rockets: “a young, brilliant population” and “a deep understanding of adaptation and resilience”

Uganda, in particular, became one of the foundational pillars of this transformation. By the mid-2030s, universities in Kampala and Mbarara had established advanced robotic mission control labs that trained specialists in autonomous systems, space-grade machine learning, and teleoperation for low-gravity environments.

It was in Uganda that the lunar agricultural recycling model was perfected. The same research that enabled rural water purification, regenerative crop cycles, and solar-powered food processing across the Great Lakes region was adapted to sustain greenhouses under the harsh filtered light of the Moon.

Ugandan engineers also led the development of EVA life support safety protocols after the Kibale Simulation Program, which used analogue craters and volcanic terrains to train human-robot coordination under extreme environmental uncertainty. These protocols are now standard practice across all lunar surface operations.

African engineers led breakthroughs in three areas crucial to off-world life:

1. “Cheap modular solar technology”, adapted from rural electrification initiatives across East and Southern Africa.

2. “AI-driven agricultural recycling systems”, refined originally to reduce food waste and stabilise supply chains across the continent.

3. “Educational ecosystems that put coding, robotics, and data science in the hands of every secondary school learner.”

By the 2040s, Uganda, Kenya, Ghana, Nigeria, Rwanda, and South Africa were collaborating on a Pan-African Space Robotics Network. The network trained and deployed tens of thousands of robotic systems engineers, teleoperators, and mission planners. This talent became indispensable to lunar and Martian operations.

Life on the Moon is still not easy. Gravity is one-sixth of Earth’s. Dust is sharp and invasive. The nights last 14 Earth days and are unimaginably cold. Yet, we live. And we grow.

Every habitat is partially buried to shield us from cosmic radiation. The walls are thick, shaped by 3D printers using lunar soil. Energy comes from vast mirror-panel solar farms placed along the crater rim where the Sun never entirely disappears. Water is extracted, purified, and cycled endlessly. Every breath is measured. Nothing is wasted.

But humanity has learned a deeper lesson here: “to survive beyond Earth, we had to finally learn to value every resource, every life, and every decision.” It  is a lesson we needed even more back on Earth.

Here, AI is not our replacement. It is our environment. From  the oxygen recyclers to the agricultural domes to the pressurised rovers, every system is monitored and managed by intelligent agents. They anticipate failures before they occur. They resolve conflicts between power, heat, and life support demands. They learn from millions of data points every hour. And yet, it is humans who give purpose to all of this.

It is one of "co-creation" where humans bring meaning, and AI brings continuity. Where humans bring imagination, robots bring endurance. Together,  we are building something that no single species, biological or digital, could achieve alone.

Even now, supply convoys are being prepared for our sister station at the Martian equatorial highlands. The journey to Mars is long and risky, but the blueprint we developed here will guide us: establish orbiting control bases, deploy robotic construction fleets, test life support loops, and then send humans to complete the circle of presence. If the moon were our apprenticeship, Mars would be our adolescence. Humanity is learning how to grow up.

Do not look at the stars as distant or unattainable. The skills needed for the new age are the same skills needed to solve challenges at home: Clean water engineering, Renewable energy design, Data science and machine learning, Tesilient agriculture and circular economy systems.

The future of space is not rockets. It is “resource wisdom, computational intelligence, and cultural imagination.” And Africa has all three.

The Moon has taught us that survival is not guaranteed, but “possibility is infinite” when guided by cooperation. The next chapter will not be written by nations seeking dominance, but by communities seeking understanding. We do not inhabit the Moon to escape Earth. We inhabit it to “understand the meaning of being human”.

And so, from this quiet frontier beyond the skies of home, we are reminded that our journey has always been part of a larger story, one written in the stars before it was written in science. We did not come here to escape Earth, nor to prove greatness, but to understand more deeply what it means to be stewards of creation.

Finally, “Capture the sound of your parents’ hearty laughter while you can, one day, in the quiet of old age, that echo will be the music your heart longs to hear.” For the journey is long and lonely.

Should the shuttle drift off-course, relax, that’s why we keep the Indian Ocean as our soft-landing cushion.

The writer is an Engineer