Journals of a Time Traveller

Back to the Future: Time Travel and Haplogroup Index

The Homelands of H6a1a8?

Credit: ©  Although OpenStreetMap Contributors.

These blog posts do not claim to be factual beyond the available written records. Based on the fragments I can glean from Y-DNA and mitochondrial DNA variants—supplemented by evidence from ancient DNA and archaeology—I weave a narrative. To a scientist, this leap of faith might seem heretical. But I am no scientist; I am a Time Traveller, and I claim the storyteller’s right to narrative.

I ask your forgiveness as I spin these stories through a web of ancient cultures. I cannot prove that a specific ancestor belonged to any particular archaeological horizon; I can only suggest what might have been. It is a matter of plausibility, not certainty.

In that spirit, I suggest that the map above—spanning the Alps, the Carpathians, and their surrounding regions—might just be the cradle where H6a1a mutated to become H6a1a8. It is plausible that this was the homeland of my later F8693412 private variant, shared today by an Austrian tester and several English H6a1a8 descendants.

Now, I shall zoom into the Vienna and Danube Basin, focusing on that narrow gap where the river passes near modern-day Bratislava: The Devín Gate.

In 800 BCE, the Danube here was a labyrinth of shifting gravel banks and braided waterways, choked with deadwood. Dense, riparian wild forests of willow and poplar lined the alluvial plains. Bison, aurochs, wolves, brown bears and red deer still frequented the shallows.

Human presence and their mixed agriculture were defined by the archaeological culture known as Urnfield, which was then transitioning into the Hallstatt culture; the local inhabitants likely left traces of both. To the east of the Devín Gate lay the downstream expanse of the Little Hungarian Plain—the Danubian Flat—where vast, wild wetlands dominated the landscape. 

The success of local cultures did not lie entirely with their agriculture. It also lay in their position within Europe—a position that was particularly valuable now, as the first iron smiths arrived to bring the Late Bronze Age to a close. Trade routes brought precious amber down from the Baltic through the Morava River valley; Europe was not some neat division of peoples, isolated from one another. Meanwhile, salt moved north from the Hallstatt salt mines in the Alps. Locals would control these movements and barter for luxuries: textiles, bronze, tin, and wine from the south.

It was this movement of people along established trade networks that could have been responsible for carrying the mitochondrial DNA haplogroup H6a1a8 (including but not only the F8693412 private variant cluster) towards its modern distribution in England, Scotland, Wales, Ireland, the Netherlands, Austria, Hungary, Finland, and Sweden (note* ftDNA maps). Central to that distribution is my proposed homeland. Trade routes across different ages may have helped to carry H6a1a8 through various successive cultures; I perceive mtDNA haplogroup H6a1a8 to be intrinsically connected to the European Iron Age.

This movement of peoples across the Continent and even into the British & Irish Isles, offers one explanation of the distribution of a haplogroup, that Family Tree DNA currently dates to a TMRCA (Time of Most Recent Common Ancestor) of 761 BCE - representing a range of between 1230 BCE and 328 BCE.

Although the people who lived here at this time were to be increasingly identified as belonging to Hallstatt Culture, their Urnfield practices continued.  Almost all of their dead were cremated, cheating modern geneticists of their ancient DNA. The ashes of their loved ones were then placed in distinctive urns, which would be buried in vast urn fields, devoid of mounds.

Their settlements were often small, open villages located on fertile river terraces. Within timber-framed longhouses and pit-houses, walled with wattle and daub, they lived under roofs of thatched reed harvested from the wetlands. There is archaeological evidence that the walls of the houses may have been decorated with red or geometric patterns (triangles or spirals).

However, people were just beginning to move back up onto the Devín and Braunsberg heights for protection as social tensions rose. Society was becoming "heroic" in the Homeric sense; power was held by local "big men" who proved their worth through feasting and gift-giving. Into this mix, the new technology of iron was arriving.

Interestingly, ancient DNA studies from the broader Iron Age suggest that many of these communities practiced matrilocality or maintained strong maternal clan structures. The women here may have been the permanent heart of the community, while men moved between tribes to forge alliances.

There were also larger hillforts, such as those crowning the heights of the Devín Gate. These forts featured box ramparts that would have appeared as massive white or grey stone walls from a distance. Here, the chieftains and elites resided.

These people loved colour. They used natural dyes such as woad (blue), madder (red), and weld (yellow), and plaid-like patterns (checked weaving) were already in use. Jewellery was bold—heavy bronze neck-rings (torcs) and "spectacle" fibulae (large brooch-pins made of coiled wire).

Perhaps, my one hundred-times great-grandmother was here? Maybe that is her weaving above? My mtDNA H6a1a8 ancestor.

GO TO NEXT ACT OPTION A - Early Jastorf culture, The Elbe, Altmark, North German plain. 500 BCE

Back to the Future: Time Travel and Haplogroup Index

Back to the Future: Time Travel and Haplogroup Index

The Norfolk Portraits

1932: The Wedding of Ernest and Ivy This image is an AI restoration and colouring of a 1932 wedding photo capturing the marriage of my grandparents, Ernest William Curtis and Ivy Maud Tovell, at Limpenhoe, Norfolk. This project tracks the direct matrilineal line, represented here by the bride and her mother, Caroline Tammas-Tovell, who is seated beside her.

I have mapped a hypothesis of the route my mitochondrial DNA (mtDNA) has taken over approximately 1,000 generations. This journey commenced with the emergence of "Helena" 25,000 years ago in the Levant and concludes with my mother in a Norfolk village.

A Childhood Snapshot This is an AI restoration of a snapshot of my mother as a young girl, being "forced" to pose with a kitten by her brother, Dennis.

The Biological Engine: A Story of Fluke and Resilience

Mitochondria are a story of fluke and resilience. Billions of years ago, they were likely independent bacteria. At some point, they were engulfed by a larger cell but escaped digestion; instead, they formed a symbiotic partnership. The mitochondria provided energy, and the larger cell provided protection. They became the power plants located inside almost every cell of our bodies. Just as a city needs electricity to keep the lights on, our cells need a specific kind of "chemical energy" to keep us breathing, moving, and thinking.

Because they reside in the cytoplasm, outside of the central nucleus, they contain their own autonomous DNA. It is the mutations or variants on that mtDNA (in my case, Haplogroup H6a1a8) that I have been following. For geneticists, mtDNA acts as a vital marker; we can date variants and pinpoint their emergence to a specific time and geographic location. It is uniquely useful because, unlike nuclear DNA, it does not recombine or "shuffle" with each generation. Rather, it follows a strict line of descent. Traced backwards, it follows my mother, her mother, and her mother before her—along that unbroken matrilineage, all the way back to "Mitochondrial Eve".

A Legacy of Resilience: The Cache County Study

For students of Integrated Ancestral Studies (IAS), however, this is more than just a marker. It appears that those of us carrying H6a1a, H6a1b, or their descendant "daughter" lineages (such as H6a1a8) may have inherited a significant biological advantage.

The Cache County Study on Memory in Aging—a long-term investigation involving over 1,000 residents of northern Utah—sought to understand why Alzheimer’s disease (AD) clusters in families and why there is a notable "maternal effect." Researchers discovered that individuals belonging to the H6a1a and H6a1b sub-branches of the Helena lineage had a significantly reduced risk of developing Alzheimer’s.

While the exact biological mechanism is still being researched, the findings suggest that these specific mitochondrial lineages are more "resilient" to the ageing process. Their variants are located in genes responsible for the electron transport chain—the machinery that generates cellular energy. For this project, it adds a profound layer of meaning: the route this DNA took over 1,000 generations isn't just a map of migration, but a 25,000-year-old legacy of cognitive resilience. This may explain why Alzheimer’s has plagued my paternal line, yet remained notably absent from my maternal family.

The Journey of the Matrilineage

Matrilineal Staying Power From the perspective of human population genetics, I have noted the remarkable resilience and "staying power" of women across prehistoric societies. Men come and go, but the mtDNA remains. Consequently, Europe has become a broad matrix of diverse mtDNA haplogroups, while a relatively small number of Y-DNA haplogroups dominate. Warriors arrive and are later vanquished, but those who actually till the soil and produce often remain as the enduring genetic background.

The Norfolk Thread Records show that my matrilineage has been incredibly localised in south and east Norfolk since at least 1661 CE. I find it highly probable that the line was present there during the Late Medieval period, and I have further postulated that it may have lingered in this area as far back as the Iron Age. While these theories are based on rational conjecture—factual certainty only begins with that 1661 baptism—the proposed 25,000-year route suggests many instances of "settling" for centuries or even millennia. I view mtDNA as a genetic thread that weaves different cultures together.

H6a1a8: An Iron Age Haplogroup Throughout this journey, I have associated H6a1a8 specifically with the Western and Central European Iron Age. The clues exist in ancient DNA samples found in North Berwick, Scotland, and in its modern distribution. I hypothesise that my matrilineage likely entered the British Isles following the Late Bronze Age migration events from the south, but prior to the Anglo-Saxon "North Sea Migration Continuum."

Admittedly, I may be simplifying these movements. The journey may not have always been a linear "westward" trek from the Volga; the reality is likely far more complex. What I have attempted is to narrate a believable route through 25,000 years, acknowledging that many alternatives may exist.

Closing Log

I hope that someone finds the Ovum series useful, today or tomorrow. This is the personal journal of a Time Traveller left open.

To follow: 

an index bringing together Ovum (my mtDNA narrative) and Odyssey of Y (my Y-DNA narrative). From there, I shall move on to other subjects within Integrated Ancestral Studies, including:

• Restored and colourised photos of my late uncle's Korean War tour. The 1951/2 Royal Norfolk Regiment in colour. National Servicemen in action.

• Viscount Melbourne as Home Secretary personally petitioning for the release of my swing rioter ancestor. The incredible pardon from transportation by the man who a few years later transported the Tolpuddle Martyrs. By his whim alone do I exist today.

• AI for time travel. Strengths and weaknesses.

• Reflections on a forty-year journey through the tracing of ancestors.

• My 18 year old Boer War veteran ancestor of the 9th Foot.

• A fresh look at my late father's metal detector finds from Norfolk, and what they suggest about the boulder-clays of the East Anglian Plateau.

• Identifying struck flint and prehistoric stone tools

• Idyllea: Revisit my adventure tale of three siblings at the close of the Mesolithic period.

• Local history, archaeology, genealogy, genetics, prehistory and more.

If anyone finds these logs one day, then enjoy.

GO TO THE NEXT ACT - Ovum Postscript

Back to the Future: Time Travel and Haplogroup Index

Back to the Future: Time Travel and Haplogroup Index

Images of my 190 times great-grandmother as visualised with a lot of prompting and correcting by Google Gemini.

Meet my 180th great-grandmother. Her personal name is Hen-at-yah. We can reasonably speculate on this because she almost certainly spoke an Indo-European language—the ancestor to most modern European tongues. The year is 3000 BCE, and she belongs to the archaeological group known as the Yamnaya culture. Her mitochondrial DNA (mtDNA) haplogroup is H6a1.

Beside a wagon burial, Hen-at-yah bids farewell to her late husband. She is now the widowed matriarch of her family. Her husband’s remains will be covered by a massive mound of earth—a kurgan—serving as a permanent memorial to a great man. Wherever these people have roamed across the Pontic-Caspian steppe, they have left the landscape littered with these monumental burial mounds.

They are a metalworking people who long ago mastered copper and are now experimenting with its alloys. Living along the "Steppe Corridor," they have been exposed to innovative ideas from both east and west. They have adopted sheep, goats, and cattle from the Fertile Crescent south of the Caucasus, and from the same regions, they refined their metallurgical skills.

Crucially, they have utilised the first domesticated horses of the Eurasian steppes and combined them with the invention of the wheel to create their own wagons. These are a nomadic people; their wealth lies in their livestock, and they roam the endless grasslands to guide their herds. In this mobile, pastoralist economy, their wagons are not just tools—they are the very foundation of their way of life.

Source ©  OpenStreetMaps Modified by myself. Lines represent possible migrations. Also indicated is the discussed migration from what North Moldovia, to the Pannonian Plain of Hungary.

Hen-at-yah buries not only her husband but also her connection to the vast grasslands her family has roamed for generations. The Yamnaya have mastered the exploitation of dairy; this nutritional breakthrough has led to a surge in population, and with it, intensifying disputes over grazing rights. She has heard travellers' tales of a great plain far to the west—a place of lush grasses sheltered by mountains. Hen-at-yah promised her late husband that she would lead their folk to this whispered paradise.

This "plain" is the Pannonian Plain in modern-day Hungary. Her journey represents the monumental migration of nomadic herders from the Pontic-Caspian steppes into the heart of Europe. Most modern Europeans of local descent carry a significant genetic legacy from this event:

The most common Y-DNA haplogroups of European males—dominant even in Western Europe—are direct descendants of R1 (R-M173), a lineage that arrived with the Yamnaya Horizon.

Whether measured by autosomal DNA (general ancient ancestry) or Y-DNA haplogroups, Western Europeans—particularly those from the North West—possess substantial Steppe ancestry that reached Europe between 3000 and 2500 BCE. On my direct paternal line, I am an exception; my yDNA arrived from south of the Caucasus in South West Asia much later. However, my mtDNA (mitochondrial DNA), inherited through my direct maternal line, did arrive during this Chalcolithic migration. H6a1 is effectively the maternal sister-line to the R1a and R1b paternal lineages that reshaped the continent.

They had lived on the Pontic-Caspian steppes, developing a distinct economy and a subsequent culture. Their belief systems, concepts of wealth, and social structures were perfectly adapted to that expansive environment. They brought to Europe more than just their DNA and the Indo-European languages (the ancestors of modern English, Gaelic, German, French, Spanish, Italian, and Russian); they brought a technological revolution.

With them came advanced skills in working copper, gold, and bronze. They brought the wheel and, almost certainly, the horse. They also introduced new religious beliefs centred on celestial deities: the sun god and the storm gods of the vast, open steppe sky. These were the myths and rituals they practised while huddled around campfires, carryovers from a world where the horizon was endless.

GO TO NEXT ACT - Únětice culture, Carpathians, Europe. 2,200 BCE

Back to the Future: Time Travel and Haplogroup Index

Back to the Future: Time Travel and Haplogroup Index

My 160 times great-grandmother. Early Bronze Age 2200 BCE. Únětice culture. Moravian Gate (Czech Republic). As visualised by Google Gemini AI.

Tracking the Journey of mtDNA H6a1a8: From the Steppe to the British Iron Age

I have spent a great deal of time tracing the path of my maternal line (mtDNA) as it moved from the Yamnaya Horizon into Central and Western Europe. Initially, I assumed a direct route toward the Rhine Delta (modern-day Netherlands) and the Bell Beaker Culture, eventually crossing the English Channel into Southeast Britain. I even researched this event extensively and commissioned AI imagery to bring that story to life.

However, after deeper reflection, I’ve refined my hypothesis. While the "Bell Beaker route" explains the massive migration into the British Isles, does it perfectly fit the specific evidence for the H6a1a8 lineage? My first conclusion: it’s possible, but perhaps unlikely. While not everyone may agree, I follow a more nuanced, personal hypothesis based on the latest data.

The Evidence in the DNA

Looking at my modern-day matches on FTDNA for H6a1a8 (including my specific haplotype, F8693412), a pattern emerges. My closest matches are concentrated in Britain (England and Scotland), Ireland, Austria, and Hungary, with more distant matches appearing in Finland.

The estimated TMRCA for H6a1a8 is rounded to 750 BCE, though the scientific range spans from 1230 BCE to 238 BCE. Crucially, I share ancestry with two ancient H6a1a8 samples from Iron Age Scotland:

• Sample I16495 (North Berwick): A teenage girl (16–18 years old) who lived between 196 BCE and 3 CE.

• Sample I16413 (North Berwick): A woman who lived between 44 BCE - 117 CE.

• Context: They belonged to the Iron Age British cultural group in what is now East Lothian (Patterson et al., 2022).

While the 750 BCE estimate is a helpful benchmark, it is not "set in stone." Given that the North Berwick samples are already fully developed H6a1a8, our common ancestor likely lived several centuries earlier than the rounded average suggests.

My Conclusions

Taking this data into account, I reached the following conclusions for my lineage:

1. Pre-Saxon Roots: My H6a1a8 lineage entered Britain long before the Anglo-Saxon or Anglo-Danish migrations of the Early Medieval period. Despite my East Anglian descent, my "motherline" is "old stock"—likely Romano-British or Iron Age.

2. A Continental Origin: Although H6a1a8 is common in Britain and Ireland today, it likely originated on the Continent. Based on the distribution of matches, the original point of diffusion—spreading to Ireland, Britain, Hungary, and Finland—was likely the region of Austria (the heart of the Hallstatt culture).

3. An Iron Age Legacy: I view H6a1a8 as a distinct mtDNA expression of the European Iron Age.

* 2026-05-09 I have revised the above evidence and subsequent hypothesis. I will offer two projections of the route that my mitochondrial DNA may have taken, in later acts. But both use this act as a launching point.

Source ©  OpenStreetMaps Modified by myself.

Back to the Future: Time Travel and Haplogroup Index

Images here are visualisations by Google Gemini

Meet a great-grandmother from 250 generations ago. She carries the mtDNA haplogroup H6, or perhaps H6a, in trillions of her cells. She is a descendant of the 'Basal Helena' we met in the Levant 25,000 BCE. But this grandmother lives on the banks of the Volga, in what is now southern Russia, and the date is 4,500 BCE.

5,000–4,500 BCE), the Khvalynsk culture

Source ©  OpenStreetMaps Modified by myself.

She is no longer a nomad of the caves. Here she belongs to a world of copper, cattle, and sheep—the first great social hierarchies of the steppe. The ancient spark from the Levant has adapted to the cold winds of the north.

Our 250-times great-grandmother is not a wife of the Fertile Crescent Neolithic, nor have her people abandoned their Eastern Hunter-Gatherer roots. Instead, they have adapted to a way of life unique to the steppe. The herds they once hunted, they now master. They take from the Fertile Crescent what they need—sheep and cattle—but they do not toil the soil. They are women of the great Eurasian Steppe. They are becoming the great pastoralists; the herders of the endless grasslands

This ancestor belongs to an archaeological layer which Russian researchers have named the Khvalynsk culture. It is a period defined by a pivotal shift: the move away from hunting, fishing, and foraging towards the pastoral herding of cattle, sheep, and goats.

These herds introduced the concepts of private property and surplus value to their economy—a newfound wealth that seems to have stratified their society. While some of their graves were laden with status objects, such as polished stone maces and copper bracelets, rings and pendants, others remained starkly bare.

The Great Eurasian Steppe serves as the continent's primary thoroughfare. Across these vast grasslands, new cultures, languages, and peoples—alongside their livestock and technologies—surged east and west, linking Europe, the Caucasus, and Central and East Asia. The people of the Khvalynsk culture were a product of this flux, carrying the genetic heritage of several previously isolated populations. These included hunter-gatherer groups local to the East Europe and the Eurasian Steppe, from the Caucasus, and from as far away as Siberia. Our 250th great-grandmother’s matrilineal lineage once resided on the Iranian Plateau before embarking on an arduous trek far to the north. Her arrival on the Volga helped forge a new way of life, blending southern traditions with the rugged spirit of the northern plains.

GO TO NEXT ACT - Yamnaya culture. Westward migration to Pannonian plain. 3,000 BCE

Back to the Future: Time Travel and Haplogroup Index