Category Archives: Globetrekker

Haplogroups: DNA SNPs Are Breadcrumbs – Follow Their Path

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Recently a reader asked some great questions.

If Y-DNA is unchanged, then why isn’t the Y-DNA of every man the same today? And if it’s not the same, then how do we know that all men descend from Y-Adam? Are the scientists just guessing?

The scientists aren’t guessing, and the recent scientific innovations behind how this works is pretty amazing, so let’s unravel these questions one at a time.

The first thing we need to understand is how Y-DNA is inherited differently from autosomal DNA, and how it mutates.

First, a reminder that:

  • Y-DNA tests the Y chromosome passed from father to son in every generation, unmixed with any DNA of the mother. This article focuses on Y-DNA.
  • Mitochondrial DNA tests the mitochondria passed from mothers to all of their children, but is only passed on by the females, unmixed with the DNA of the father. This article also pertains to mitochondrial SNPS, but we will cover that more specifically later in another article.
  • Autosomal DNA is passed from both parents to their children. Each child inherits half of each parent’s autosomal DNA.

Let’s look at how this works.

Autosomal vs Y-DNA Inheritance

Click on image to enlarge

Autosomal DNA, shown here with the green (male) and pink (female) images, divides in each generation as it’s passed from the parent to their child. Each child inherits half of each parent’s autosomal DNA, meaning chromosomes 1-22. For this discussion, each descendant shown above is a male and has a Y chromosome.

This means that in the first generation, which would be the great-grandfather, about 700,000 locations of his green autosomal DNA are tested for genealogy purposes.

His female partner (pink) also has about 700,000 locations. During recombination, they each contribute about 350,000 SNPs (Single Nucleotide Polymorphisms) of autosomal DNA to their child. Their offspring then has a total of 700,000 SNPs, 350,000 green and 350,000 pink contributed by each parent.

This process is repeated for each child, whether male or female (with the exception of the X chromosome, which is beyond the scope of this article), but each child does not receive exactly the same half of their parents’ autosomal DNA. Recombination is random.

In the four generations shown above, the green autosomal DNA of generation one, the great-grandfather, has been divided and recombined three times. The original 700,000 locations of great-grandfather’s green DNA has now been whittled down to about 87,500 locations of his green DNA.

Y-DNA in the Same Generation

Looking now at the blue Y-DNA at left, the Y-DNA remains the same in each generation with the exception of one mutation approximately every two or three generations.

As you can see in the chart, in the exact same number of generations, the Y-DNA of each male, which he inherited from his father:

  • Never recombines with any DNA from the mother
  • Never divides and gets smaller in subsequent generations
  • Remains essentially unchanged in each generation

The key word here is “essentially.”

Y-DNA

The Y chromosome consists of about 59 million locations or SNPs of DNA. STR tests, Short Tandem Repeats, which are essentially insertions and deletions, test limited numbers of carefully curated markers selected for the fact that they mutate in a genealogically relevant timeframe. These markers are combined in panels of either 67 or 111 marker tests available for purchase at FamilyTreeDNA today, or historically 12, 25, 37, 67, and 111 marker panels. The STR test was the original Y-DNA test for genealogy and is still used as an introductory test or to see if a male matches a specific line, or not.

From the STR tests, in addition to matching, FamilyTreeDNA can reliably predict a relatively high-level haplogroup, or genetic clan, based on the frequency of the combinations of those marker values in specific STR locations.

SNPs are much more reliable than STRs, which tend to be comparatively unstable, mutating at an unreliable rate, and back mutating, which can be very disconcerting for genealogy. We need reliable consistency to be able to assign a male tester to a specific lineage with confidence. We can, however, find genealogically relevant matches that may be quite important, so I never disregard STR tests or testers. STR tests aren’t relevant for deeper history, nor can they reliably discern a specific lineage within a surname. SNP tests can and do.

The Big Y-700 SNP test gives us that and more, along with the earlier Big Y-500 test which scanned about 30 million locations. The Big Y-700 is a significant improvement; men can upgrade from the Big Y-500 or STR tests.

The Big Y-700 test scans about 50 million Y-DNA locations, known as the gold standard region, for all mutations. It reports 700 or more STR markers for matching, but more importantly, it scans for all SNP mutations in those 50 million locations.

All mutations are confirmed by at least five positive repeat scans and are then assigned a haplogroup name if found in two or more men.

Y-DNA Testing

If Y-DNA remained exactly the same, then the Y-DNA of men today would be entirely indistinguishable from each other – essentially all matching humankind’s first common ancestor. With no changes, Y-DNA would not be useful for genealogy. We need inherited mutations to be able to compare men and determine their level of relatedness to each other.

Fortunately, Y-DNA SNPs do mutate. Y-DNA is never divided or combined, so it stays essentially the same except for occasional mutations which are inherited by the following generations.

Using SNP markers scanned in the Big Y test, one new mutation happens on the average of every two or three generations. Of course, that means that sometimes there are no mutations for a few generations, and sometimes there are two mutations between father and son.

What this does, though, very effectively, is provide a trail of SNP mutations – breadcrumbs essentially – that we can use for matching, AND for tracking our mutations, which equate to ancestors, back in time.

Estes Male Breadcrumb Trail

I’ve tested several Estes men of known lineage, so I’m going to use this line as an example of how mutations act as breadcrumbs, allowing us to track our ancestors back in time and across the globe.

Multiple cousins in my Estes line have taken the Big Y-700 test.

My closest male cousin matches two other men on a unique mutation. That SNP has been named haplogroup R-ZS3700.

We know, based on our genealogy, that this mutation occurred in Virginia and is found in the sons of Moses Estes born in 1711.

How do we know that?

We know that because three of Moses’s descendants have tested and all three of those men have the same mutation, R-ZS3700, and none of the sons of Moses’s brothers have that mutation.

I’ve created a chart to illustrate the Estes pedigree chart, and the haplogroups assigned to those men. So, it’s a DNA pedigree chart too. This is exactly what the Big-Y DNA test does for us.

In the red-bordered block of testers, you can see the three men that all have R-ZS3700 (in red), and all are sons of Moses born in 1711. I have not typed the names of all the men in each generation because, for purposes of this illustration, names aren’t important. However, the concept and the fact that we have been able to connect them genealogically, either before or because of Y-DNA testing, is crucial.

Directly above Moses born in 1711, you can see his father Abraham born in 1647, along with Moses’ brothers at right and left; John, Richard, Sylvester, and Elisha whose descendants have taken the Big Y-700 test. Moses’s brothers’ descendants all have haplogroup R-BY490 (in blue), but NOT R-ZS3700. That tells us that the mutation responsible for R-ZS3700 happened between Abraham born in 1647, and Moses born in 1711. Otherwise, Moses’s brothers would have the mutation if his father had the mutation.

Moses’s descendants also have R-BY490, but it’s NOT the last SNP or haplogroup in their lineage. For Moses’s descendants, R-ZS3700 occurred after R-BY490.

You can see haplogroup R-BY490 boxed in blue.

We know that Moses and his father, Abraham, both have haplogroup R-BY490 because all of Abraham’s sons have this haplogroup. Additionally, we know that Abraham’s father, Silvester also had haplogroup R-BY490.

How do we know that?

Abraham’s brother, Richard’s descendant, tested and he has haplogroup R-BY490.

However, Silvester’s father, Robert born in 1555 did NOT have R-BY490, so it formed between him and his son, Silvester.

How do we know that?

Robert’s other son, Robert born in 1603 has a descendant who tested and has haplogroup R-BY482, but does NOT have R-BY490 or R-ZS3700.

All of the other Eates testers also have R-BY482, blocked in green, in addition to R-BY490, so we know that the mutation of R-BY490 developed between Robert born in 1555 and his son, Silvester born in 1600, because his other son’s descendant does not have it.

Looking at only the descent of the haplogroups, in order, we have

  • R-BY482 (green) found in Robert born in 1555 and all of his descendants.
  • R-BY490 (blue) found in Silvester born in 1600 and all of his descendants, but not his brother
  • R-ZS3700 (red) found in Moses born in 1711 and all of his descendants, but not his brothers

If we had Estes men who descend from the two additional documented generations upstream of Robert born in 1555, we might discover when R-BY482 occurred, but to date, we don’t have any additional testers from those lines.

Now that we understand the genesis of these three haplogroups in the Estes lineage, what else can we discover through our haplogroup breadcrumbs?

The Discover Reports

By entering the haplogroup in the Discover tool, either on the public page, here, or clicking on Discover on your personal page at FamilyTreeDNA if you’ve taken the Big-Y test, you will see several reports for your haplogroup.

I strongly suggest reviewing each category, because they cumulatively act as chapters to the book of your haplogroup story, but we’re going to skip directly to the breadcrumbs, which is called the Ancestral Path.

The Ancestral Path begins with your haplogroup in Line 1 then lists the first upstream or parent haplogroup in Line 2. In this case, the haplogroup I entered is R-ZS3700.

You can see the estimated age of the haplogroup, meaning when it formed, at about 1700 CE. Moses Estes who was born in 1711 is the first Estes man to carry haplogroup R-ZS3700, so that’s extremely close.

Line 2, R-BY490 occurred or was born about 1650, and we know that it actually occurred between Robert and Silvester born in 1600, so that’s close too.

Scanning down to Line 3, R-BY482 is estimated to have occurred about 1500 CE, and we know for sure it had occurred by 1555 when Robert was born.

We see the parent haplogroup of R-BY487 on Line 4, dating from about 750 CE. Of course, if more men test, it’s possible that more haplogroups will emerge between BY482 and BY487, forming a new branch. Given the time involved, those men wouldn’t be expected to carry the Estes surname, as surnames hadn’t yet been adopted in that timeframe.

Moving down to Line 9, we see R-ZP18 from 2250 BCE, or about 4250 years ago. Looking at the right column, there’s one ancient sample with that haplogroup. The location of ancient samples anchors haplogroups definitively in a particular location at a specific time.

Haplogroup by haplogroup, step by step, we can follow the breadcrumbs back in time to Y-Adam, the first homo sapiens male known to have descendants today, meaning he’s the MRCA, or most recent common ancestor for all men.

Neanderthals and Denisovans follow, but their Y-DNA is only available through ancient samples. They have no known direct male survivors, but someday, maybe someone will test and their Y-DNA will be found to descend from Neanderthals or Denisovans.

Now that we know when those haplogroups occurred, how did our ancestors get from Africa 232,000 years ago to Kent, England, in the 1400s? What path did they take?

The new Globetrekker tool answers that question.

The Breadcrumb Trail

In Globetrekker, each haplogroup’s location is placed by a combination of testers’ results, their identified earliest known ancestor (EKA) country and location, combined with ancient samples, climatic factors like glaciers and sea levels, and geographic features. You can read about Globetrekker here and here.

To view the Globetrekker tool, you must sign it to an account that has taken the Big Y test. It’s a tool exclusively provided for Big-Y testers.

You can click at the bottom of your Globetrekker map to play the animated video.

Beginning in Africa, our ancestors began their journey with Y-Adam, then migrated through the Near East, South Asia, East Asia, then west through central Asia into Europe. The Estes ancestors crossed the English Channel and migrated around what is now England before settling in Deal, on the east coast.

Clicking on any haplogroup provides a description of that haplogroup and how it was placed in that location.

Enabling the option for ancient DNA shows those locations as well, near the haplogroups they represent when the animation is playing.

Clicking on the shovel icon explains about that particular ancient DNA sample, what is known, and how it relates to the haplogroup it’s connected to by a dotted line on the map.

Pretty cool, huh!!

End to End

As you can see from this example, Big Y results are an end-to-end tool.

We can use the Big Y-700 haplogroups very successfully for recent genealogy – assigning testers to specific lines in a genealogy timeframe. Some haplogroups are so specific that, without additional information, we can place a man in his exact generation, or within a generation or two.

Not shown in my Estes pedigree chart is an adoptee with a different surname, of course. We know that he descends from Moses’s line because he carries haplogroup R-ZS3700, but we are still working on the more recent generations using autosomal DNA to connect him accurately.  If more of Moses’s descendants tested, we could probably place him very specifically. Without the Big Y-700 test, he wouldn’t know his biological surname or that he descends from Moses. That’s a HUGE breakthrough for him.

There’s more about the Estes line to learn, however.

If our Estes cousins tested their brothers, uncles or other Estes males in their line, they would likely receive a more refined haplogroup that’s relevant only to that line.

Using Big-Y test results, we can place men within a couple of generations and identify a common ancestor, even when all men within a haplogroup don’t know their genealogical lineage. Using those same test results, we can follow the breadcrumbs all 50 steps back in time more than 230,000 years to Y-Adam.

End to end, the Big-Y test coupled with breadcrumbs in Discover, Globetrekker, and other amazing tools is absolutely the most informative and powerful test available to male testers for their paternal line genealogy.

These amazing innovations tracking more than 50,000 haplogroups across the globe answer the original questions about how we know.

The more people who take or upgrade to the Big Y-700 test, the more haplogroup branches will be added, and the more refined the breadcrumbs, ages, and maps will become. In other words, there’s still more to learn.

Test if you haven’t, and check back often for new matches and breadcrumbs, aka updates.

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Globetrekker – A New Feature for Big Y Customers From FamilyTreeDNA

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FamilyTreeDNA recently released Globetrekker, a great new feature for Big Y customers as part of the Discover tools. You can read about the Discover tools, here.

What Is Globetrekker?

Globetrekker is a new mapping feature that maps your Y-DNA ancestral migration path from Y-Adam in Africa born about 200,000 years ago to where your direct paternal ancestors are found most recently based on:

  • The earliest known ancestor (EKA) locations of you, your matches and other testers
  • Ancient DNA samples
  • Various geographic criteria including elevation, migration corridors, sea levels, and glaciers.

This data-driven model also includes sea levels over time and some climate factors, such as glaciation. Clearly, our ancestors needed access to clean water, food and an environment where they weren’t going to freeze to death. If they had to choose between migrating along a lower level coastal region, or heading straight across the high mountains into the unknown, it’s more likely that they took the lower elevation coastal route with assured food.

Globetrekker displays the “most likely” corridors for you to review.

While you only see your Y-DNA line initially, the map includes 48,000 migration paths for all haplogroups spread across each continent. If you’ve taken the Big Y test, you can view any of the haplogroups in Discover.

And, there’s an integrated tree browser, too.

You can read FamilyTreeDNA’s blog article, written by Goran Runfeldt, head of R&D, here.

Please Note

  • Everyone must sign into their own account to use the new Globetrekker tool. To use the rest of the Discover features, everyone can use the public version of the tool, but Globetrekker is for Big Y customers only, which is why you need to sign in. You’ll also receive more information in other categories, such as Notable and Ancient Connections, if you access Discover through your account. The free public version is limited.
  • If you’re a project administrator and you normally view your project members’ results through your project (with member-granted authorization, of course) you can’t do that yet with Globetrekker.
  • This means that every tester has to sign on using their own kit number and password. FamilyTreeDNA is working on Group Administrator access, so don’t despair if you normally depend on your volunteer administrator to handle things for you and explain. It’s coming.
  • The migration map includes only pre-Columbian migrations. In other words, if your EKA is not Native American and is brick-walled in the US, you won’t see it on the map. You’ll see your closest haplogroup location before about 1500.
  • These routes will change over time with additional testers whose results will shift and refine the paths.

Best Thing You Can Do

The best things you can do, aside from taking (or upgrading to) a Big Y-700 test are:

  • Complete your earliest known ancestor (EKA) information.
  • Be SURE to include a country AND a location of origin because that’s the data Globetrekker draws from.
  • If your cousins test too, you may be assigned a new, more refined haplogroup, so recruit people. If you don’t know anyone specific, looking at your STR matches is a good resource to find candidates.

Adding Your EKA

To add your EKA and their geographic location, sign in to your account and click on your name, which will display a menu.

Select Account Settings.

Select Genealogy, then Earliest Known Ancestors, then complete the information, including Country, which assigns the flag, among other things. Click on update location to complete or change this location.

Search or place the pin in the correct location. Then click Save.

There are three very important pieces of EKA information that need to be completed to reap all the benefits of the Matches Map, Discover, the Time Tree, the Group Time Tree that includes ancestors, and Globetrekker.

  1. EKA Name and birth/death date
  2. Country of Origin field using the dropdown (Please note Native American entries for proven Native ancestors/haplogroups)
  3. Ancestral Location for specific locations for the Matches Map

While you’re here, enter your direct matrilineal ancestor’s information too – that’s your mother’s mother’s mother’s line, which you’ll need for mitochondrial DNA..

Then, click the orange Save button at the bottom of the page.

Your map location will also appear on your STR Matches Map. You may find relevant matches there, even if they haven’t taken the Big Y test.

There’s immense power in collaboration.

I often reach out to STR panel (12-111 markers) matches and men with the same or similar surnames, asking if they will consider upgrading to the Big Y, sometimes providing testing scholarships. The only way to obtain the most refined haplogroup possible and the most accurate migration path is for multiple people in the same lineage to test AND complete the location information.

Now that we’ve completed our housekeeping, let’s look at Globetrekker.

Globetrekker Quick Test Drive

I’ll be writing about Globetrekker results in detail soon, but for right now, let’s just take a quick spin.

Click on any image to enlarge

Sign in to your account and click on the Discover Haplogroup Reports under Y-DNA Results and Tools.

You’ll see your Haplogroup Story, of course, and on the left side, you’ll see the Globetrekker link. Click on Globetrekker.

It Takes Two to Tango

Please note the introduction at the top of the Globetrekker page, and don’t get drawn into the beautiful map without reading this part first, along with the Release Announcement, Caveats, and Survey. Please take the survey after you’ve used Globetrekker.

Click on image to enlarge

  • In order to RECEIVE a detailed haplogroup, it takes at least two people with the variant (mutation) that is then named and becomes the same haplogroup. This is why we recommend that men ask a cousin from the same paternal line to test, or even a father/brother/uncle.
  • To MAP the location of a haplogroup on Globetrekker, it takes at least two people with the same haplogroup who have selected a location. Looking at my cousin’s results, I had already entered his EKA and location, but apparently his Big Y matches have not, so there are not two men with R-ZS3700 who have locations specified. I need to contact his matches.

Be sure to enter all of your EKA info. If your cousins have tested, they need to enter their information as well.

  • Globetrekker cannot use results for the mapping function without locations.
  • Globetrekker cannot use non-Native American haplogroups that are recorded with a location in the Americas. Globetrekker does provide Native American mapping in North and South America when the haplogroup is Native and a location is provided.
  • Globetrekker CAN utilize coordinates in the Americas, but a country of origin in Europe or elsewhere pre-Columbus. Globetrekker defaults to the country of origin. Please make sure this information is accurate and not just a guess or oral history.

Locations or at least countries need to be as accurate as possible. If there are only two men with a specific haplogroup, for example, and one enters England and the other enters France, Globetrekker tries to plot the location of that haplogroup someplace in the middle. In this circumstance, probably neither person is happy – both complaining about inaccuracy. Yet another reason why it’s a good thing to help your fellow genealogists.

Therefore, if you notice that you have a Big Y match on either your Big Y match list, or your STR (12-111 panel) matches, and they don’t have an EKA and country listed, with a location displayed on the matches map, PLEASE email them and ask nicely if they will add that info. You can send them a link to this article to explain why providing that information is critically important for them AND the people they match, just like your information is crucial to them. Without location data, Globetrekker paths can’t be calculated correctly, and sometimes not at all. The more data, the greater the accuracy.

After you enter your EKA information and after Big Y results are back, it will be a week or so before Discover and Globetrekker are up to date. Discover is updated weekly, and if a new haplogroup is added, Globetrekker will be up to date the following week.

Drum Roll Please…..

Here it is. The new highly refined Globetrekker migration map. It’s a beauty!

Your end-of-line haplogroup, or the closest one that can be calculated, will be shown in orange. In this case, it’s R-BY490 (circa 1650 CE) because the location of R-ZS3700 (circa 1700 CE) can’t be calculated.

On the map, you can see the various haplogroups that are upstream of haplogroup R-BY490, meaning parent haplogroups.

The path from Y-Adam in Africa is mapped, with the color changing to represent the birth of each major haplogroup in the migration path.

For example, I clicked on the pin for haplogroup CF, which expanded that haplogroup to CF-P143 and showed information about how the haplogroup pin was located on the map – plus the age and sea level difference at the time.

Scroll down on the map until you see the play button. Clicking on that button animates the migration path, beginning with Y-Adam, then progressing to the most current pre-Columbian migration.

In this case, I paused the video at the formation of haplogroup R1.

Notice the glaciation that both forms and recedes. Clearly, your ancestors weren’t living there during glaciation, but humans moved into those areas after the glaciers thawed and retreated.

You may be surprised at the path your ancient ancestors took, so I encourage you to spend some time with this map, reviewing the approximate path and your parental haplogroups with an open mind.

A legend is located in the far right upper corner to help explain the map details, including Ocean Currents and the various sea level colors.

Notice Doggerland, in dark green, which was a land mass when some haplogroups arrived in what is now the British Isles. Doggerland flooded sometime between 6500 and 6200 BCE, or about 8500 years ago, so it’s sea today. In other coastal locations, some previous land areas are covered by water today. Note the Baltic above, for example. Truthfully, that explains a lot. I knew about Doggerland but not about many of the other coastal regions around the world.

Pay close attention to what’s happening on the map. I noticed that my red pin for the current haplogroup is found in Deal, England, but so is an earlier haplogroup, so the later pin obscures the earlier pin. I enlarged the map and paused the video at 1400 CE so the red pin doesn’t form yet, then clicked on haplogroup R-Z290 that arrived from across the English Channel.

The R-Z290 pin location tells me that my Estes male ancestors arrived from continental Europe around 4650 years ago. My assumption (there’s that word again) had been that the original Estes ancestors arrived, then stayed right in Deal, a coastal village very near Dover, the closest point to the European mainland. According to Globetrekker, that wasn’t at all what happened.

I was initially somewhat skeptical, but then looking at all of the upstream haplogroups, I realized that those 17 haplogroups upstream of R-BY490 had to get into the other parts of the British Isles somehow – and my ancestor clearly descends from those men.

Could my ancestors have crossed back over to the European mainland at some point, then recrossed into Deal? Yes, of course, but without any genetic or other evidence, that’s speculation ONLY, with nothing at all to support it. In other words, that speculation would be based on what I believed all these years and nothing more.

The data-driven genetic scientific evidence tells us that our Estes ancestor arrived in what is today England about 4500 years ago. As you can see, there are a total of 17 points in England that have been reliably placed, not just one or two that might be open to speculation. Additionally, we have ancient DNA evidence.

Notice the functions at the top of the map. Turn on Ancient Connections. You’ll see the little shovels appear when their timeframe and location are relevant to the map migration, then disappear when it isn’t.

Pause the map again, and click on the shovel to display relevant information about the archaeology dig that produced Y-DNA results of sufficient quality to be included. Those ancient samples often anchor haplogroups in a known place at a specific time.

While you’re enjoying different views, try the other options at the top of the Globetrekker map.

Integrated Tree Browser

Scroll down beneath the map to view the integrated tree browser.

This is VERY cool because the tree browser moves in tandem with the map above.

You can see that the migration map shows R-BY487, and on the timeline below, R-BY487 is showing at the top, along with the downstream haplogroups.

R-BY482 (circa 1500 CE), R-BY490 (circa 1650 CE), and R-ZS3700 (circa 1700 CE) are all Estes surname haplogroups. Prior to that, R-BY487 (circa 750 CE) has no associated surname. Surnames hadn’t been adopted yet, but we know approximately where they were living just the same. We can now reference the appropriate historical period in England to determine what was happening when they lived there.

Why the Big Y?

The Big Y test does five things extremely well:

  1. Scans millions of locations on the Y chromosome looking for mutations that, when compared with other Big Y testers, places men conclusively on their branch, and sometimes on their twig and leaf of the Y-DNA haplotree. Men carrying previously undiscovered mutations from the same line establish a newly named haplogroup.
  2. Unambiguously matches testers with men who descend from a common ancestor. SNPs, the mutations measured in the Big Y test are not subject to back-mutations and other occasional instabilities that plague the STR markers in the 12-111 panel tests.
  3. Provides matching to both STR and SNP markers, allowing genealogical connections to men who have taken either type of test. Some people who have taken STR tests have either chosen not to upgrade (yet) or may have passed away. With the Big Y test, those legacy tests, some of which are more than 20 years old, are still useful.
  4. Provides an estimated date of when the common ancestor lived.
  5. Reaches reliably back in time, before the age of surnames, allowing testers to peer into the past based on a combination of genetics and history.

In other words, the Big Y test provides the best of both worlds, genealogy for close surname matches and anthropology for ancient matching and migration.

Lots to Explore

Globetrekker results are available to men who took either the Big Y-500 or the Big Y-700. Those who took the Big Y-500 can upgrade for significantly more refinement and potentially new haplogroups. Men who have not yet tested, or who just ordered one of the STR panels can upgrade to learn about your matches, your haplogroup, and the migration path through history your ancestor trod to arrive where your EKA lived.

I’m looking forward to reviewing all of the kits I manage that have taken the Big Y test. Let me know what you think about your Globetrekker results, and be sure to complete the survey and let FamilyTreeDNA know too.

If you’d like to learn more about your Big Y results, be sure to check out both Discover and Globetrekker. Discover is public, but Big Y testers will receive more information. Globetrekker is for Big Y customers only.

Remember, both will change as more people test and new results come in, so check back often.

The FamilyTreeDNA Big Y Facebook Group

A few weeks ago, FamilyTreeDNA introduced their FamilyTreeDNA Big Y Group on Facebook. As of today, just shy of 8000 people have joined. You do have to agree to follow the rules, but you don’t need to have taken a Big Y test. Lots of people join to learn, including many women who manage Y-DNA tests for family members or people who just want to understand more about one of the three types of tests for genetic genealogy.

You’re welcome to join too, here.

The Summer Sale

Several people have asked when the Big Y or the upgrades would be on sale. The summer sale runs from August 1-31, and all Y-DNA tests and upgrades are included, here.

If you’ve already taken one of the STR panel tests, or the Big Y-500, the Big Y-700 is less expensive when you upgrade. Just sign in to your account and click on the orange Add Ons and Upgrades button at the top right of your page, then on “Upgrades.”

Click here to purchase or upgrade.

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