The countries of the Gulf Cooperation Council (GCC) have a low population compared with other regions, totaling 45 million people in 2011, less than 1 percent of the global population, a recently published report read.
The report, filed by Kuwait Financial Center (Markaz), highlighting the GCC demographic shift, said the region is young, with 54 percent under the age of 25, although this is expected to rise to 36 years by 2050.
The most populated country is Saudi Arabia with 28 million (65 percent of the total), followed by nearly 8 million in the UAE. The International Monetary Fund forecasts a Compound Annual Growth Rate (CAGR) of 2.41 percent in the next five years and an increase in population to 49 million in 2016.
The growth rate is substantially lower than the CAGR from 2004 to 2008 of 5.9 percent.
By 2025, the GCC is expected to have a total population of 57 million, which is expected to grow with 14 million by 2050.
As of 2011, the lowest average age in the GCC is 24 years in Oman, and the highest is 31 years in Qatar. The average age in the entire GCC region is 27 years with over 20 percent below the age of 15, the report said.
On the other hand, fertility rate in the GCC has been declining, as there is greater awareness of family planning. With the exception of Oman, all other GCC countries’ fertility rates have decreased by more than 50 percent. This could also be correlated to the increased cost of living as well as increased education opportunities for women.
Moreover, GCC pyramids have a skewed bulge in the male bracket, specifically working age, which is due to the high number of male expatriates in the countries, the report said.
Saudi Arabia’s population pyramid is expansive, showing that the majority of the population is below the age of 30, with an average age of 26. This alludes that there is a high birth rate as well as a high death rate and a relatively short life expectancy.
Oman’s population pyramid is the most expansive in the GCC region. Similar to Saudi Arabia, Oman has the second highest population of nationals compared to expatriates in the region.
Bahrain is the least populated country in the GCC. Its population pyramid shows that there is no huge discrepancy between the age groups. There is also an equal distribution of males to females, with exception of the 40 to 60 years age brackets.
Qatar has the highest expatriate rate in the region. Its population pyramid alludes to it with the higher percentage of males in all working age groups above the age of 20. Qatar’s demographic boom is accompanied by its economic boom that gave rise to many opportunities for expatriates. However, population growth is expected to decrease, as expatriates exit to be replaced by local talent, the report said.
Kuwait’s pyramid is less expansive than Saudi Arabia’s, with most of its population below the age of 35 years, but over 20. There is also more discrepancy between the higher numbers of males to females, particularly in the 20 to 40 age brackets. This is attributed to the high flow of expatriates looking for employment, usually in this age bracket. The high expatriate rate is expected to decrease, as more nationals enter the labor force and demand jobs.
Similar to Kuwait, the UAE also has a very high expatriate rate. UAE’s population pyramid would look more expansive if it was exclusive to the national population. However, its total population, including expatriates, is a more contractive pyramid with the majority of the population between the ages of 20 and 60. The UAE population’s growth is expected to continue, driven by a steady inflow of expatriates, according to the report.
The majority of the GCC population consists of expatriates. Based on 2010 data, Credit Suisse reported Qatar as having 86.5 percent expatriates, followed by 70 percent and 68.8 percent in Kuwait and the UAE, respectively.
The GCC region as a whole has an average of 53.43 percent of expatriates compared to an average of 9.5 percent in the MENA region, the report said.
The positions filled by expatriates range from low-paying, low-skilled construction jobs to highly professional and specialized jobs. Nearly 4.5 million nationals are potentially entering the job market compared to 5 million nationals who were employed in 2010. The IMF predicts that an additional 2 to 3 million nationals will not be able to find employment, according to the report.
More than half of GCC population under age 25
More than half of GCC population under age 25
What new technologies are revealing about the Silk Road’s forgotten landscapes
- Drones and digital tools are allowing archaeologists to map vast areas in hours rather than months of ground surveys
- In Saudi Arabia, aerial mapping has uncovered dense prehistoric and Bronze Age sites previously thought to be empty
DUBAI: Across the deserts and mountain valleys of the Arab world, drones are now doing work that once took teams of archaeologists months to complete.
In northern Saudi Arabia, for example, aerial surveys can map an entire ancient settlement in minutes, revealing faint outlines of walls, pathways and structures hidden beneath the surface.
These images are later turned into 3D models — part of a growing effort across the region to use technology to trace old trade routes, map forgotten sites and better understand how people once moved across Arabia and beyond.
Much of this work is connected to renewed interest in the Silk Road and the networks that once linked Arabia with the wider world.
The Silk Road refers to a network of ancient trade routes that linked East Asia with the Middle East, North Africa and Europe for more than 1,500 years.
Rather than a single road, it was a vast web of caravan paths and maritime corridors connecting cities from China and Central Asia to Iran, Iraq, the Arabian Peninsula, the Levant and the Mediterranean.
Along these routes, merchants, scholars and travelers exchanged goods such as silk, spices and metalwork, as well as ideas, technologies and cultural traditions that shaped the development of the wider region.
In more recent times, scholars, students and heritage authorities across the Middle East and Central Asia are increasingly relying on drones, laser scanning, photogrammetry and satellite analysis to document archaeological landscapes.
In Saudi Arabia’s AlUla and Khaybar regions — now considered some of the world’s densest concentrations of prehistoric and Bronze Age structures — drone surveys have helped researchers record sites that would otherwise remain inaccessible.
Dr. Hugh Thomas, a lecturer in archaeology at the University of Sydney and co-director of the Prehistoric AlUla and Khaybar Excavation Project, says the scale of the Saudi landscape makes aerial work essential.
“Saudi Arabia contains an exceptionally dense archaeological landscape distributed across a vast geographic area,” he told Arab News. “Drone-based surveys allow large volumes of archaeological data to be collected efficiently.”
Indeed, many structures sit on steep or remote terrain that ground teams cannot easily reach. This shift to aerial archaeology has also revealed details that would be almost impossible to see from ground level.
Thomas notes that researchers have long suspected a link between water sources and Neolithic mustatil structures, which date back approximately 7,000 years. In 2020, drone images captured by his team near Khaybar also strengthened theories linking mustatil to water sources.
“The drone images revealed that recent rains had settled in specific parts of wadi valleys, exactly where the mustatil were built,” he said. Since then, multiple surveys and peer-reviewed studies have supported this connection, with many mustatil shown to point directly toward water.
In parallel, new technologies are reshaping how archaeologists understand the wider landscape. Thomas says tools such as drones, satellite imagery and 3D modelling allow researchers to document vast areas quickly and at far higher resolution than ever before.
These approaches “enable the rapid, cost-effective documentation of this vast and previously understudied landscape” and create permanent digital records that support long-term monitoring and analysis, he said.
This has been transformative for understanding past movement and land use.
Remote sensing work in northern Saudi Arabia has revealed extensive Bronze Age funerary avenues — pathways lined with monumental tombs, running for thousands of kilometers and linking major oases such as Khaybar, Al-Hait and Al-Huwayyitt.
Drone surveys and 3D models have allowed researchers to classify tomb types more accurately and identify where excavation would yield the most useful results. Thomas says these techniques directly contributed to one of the project’s most significant achievements.
“This has ultimately assisted us with our most recent paper, where we were able to publish the C14 dates of remains found in 40 Bronze Age tombs, helping us understand when these tombs appeared on the landscape and how they developed over time,” he said.
While international collaborations play a central role, Thomas says long-term progress in the Kingdom depends on building local capacity.
He says contributions from Saudi researchers, students and even members of the public are becoming increasingly important.
“Local researchers, students, and members of the public are taking photographs of archaeological sites and sharing them digitally,” he said. “Each image provides a lasting record of archaeological remains.”
In Saudi Arabia’s AlUla, one of the region’s most active archaeological hubs, the Royal Commission for AlUla has supported wide-ranging surveys that combine aerial photography, remote sensing and targeted excavation.
Published research from the AlUla and Khaybar Aerial Archaeology Project describes how thousands of structures — from ancient hunting traps to tombs and settlements — have been recorded using these methods in recent years.
“We’re seeing landscapes we did not even know existed before this kind of work began,” said archaeologist Dr. Rebecca Repper of the University of Sydney in an RCU briefing.
“Technology is helping us reassess northern Arabia’s role in long-distance connections.”
Recent research across Central Asia shows how drones and LiDAR, a remote-sensing technology used to create extremely accurate 3D maps of landscapes, buildings, or buried features, are transforming the study of Silk Road-era landscapes.
In Uzbekistan, a team led by Dr. Michael Frachetti — an archaeologist at Washington University in St. Louis, who specializes in ancient mobility systems — used drone-mounted LiDAR to scan remote high-altitude terrain, revealing two previously undocumented medieval cities, Tugunbulak and Tashbulak.
A 2024 peer-reviewed study, “Automated analysis of high-resolution lidar traces large-scale medieval urbanism in highland Central Asia,” details how these surveys exposed plazas, fortifications and settlement layouts previously invisible from the ground.
In southeast Kazakhstan, a 2021 study in the journal Applied Sciences shows how UAV photogrammetry helped map irrigation networks, settlement traces and burial mounds linked to medieval trade and pastoral routes.
Together, these findings demonstrate how high-resolution aerial mapping is reshaping our understanding of the landscapes and movement patterns that framed the Silk Road.
For governments, these discoveries are more than scientific. UNESCO describes the Silk Roads as a shared heritage space where cooperation is critical, and regional countries have increasingly embraced cross-border research partnerships.
In Saudi Arabia, AlUla’s collaborations with universities including Oxford, Bologna and the French National Centre for Scientific Research reflect a growing diplomatic interest in cultural research.
These partnerships have generated shared excavations, joint field schools and open-access databases — opportunities that were rare in the region two decades ago.
Digital access is also reshaping how the public engages with this history.
The International Dunhuang Project, a global consortium led by the British Library and multiple Asian national libraries, has digitized hundreds of thousands of manuscripts, murals and archaeological fragments linked to the Silk Road.
Its open platform has become a major educational resource for schools and researchers worldwide.
In AlUla, digital reconstructions and virtual models are increasingly used in classroom activities and community programs.
Youth involvement is part of this shift. In Saudi Arabia, RCU’s assorted heritage guardian programs introduce young people to survey techniques, basic archaeology and remote-sensing tools, helping train a new generation of community researchers.
In parts of Central Asia, student volunteers often support field surveys and digital documentation under national heritage ministries and international missions.
Across deserts, mountains and oasis towns, a fuller picture of ancient networks is beginning to emerge. Every drone flight reveals structures long buried under sand and stone.
“On the plateau, we found a hidden valley with large mounds and undulations on the surface,” Frachetti explained in a Washington University Magazine feature about his team’s drone-assisted work.
“It was obvious, both in person and on the drone-acquired surface model we created, that we had stumbled across something much larger and different from the typical campsite we had expected.”
Meanwhile, every 3D model helps trace how people once traveled, traded and settled across continents.
And every partnership — whether in AlUla, the Gulf, or Central Asia — reinforces the idea that this heritage connects far more than a single nation.
The Silk Road’s story is being rediscovered not through speculation but through data, satellites and the work of a generation that is documenting the past with new precision.
