Genetic Networks, Part 7: Strategically Move from DNA Analysis to Documentary Research

Genetic Networks Part 7: Strategically Move from DNA Analysis to Documentary Research

You’ve done the hard work in identifying a genetic network and analyzing the matches (Part 5). Now comes the fun part — conducting documentary research. Not that the other steps were not enjoyable and were void of documentary research, but now we get to apply our prior DNA observations within new record groups and attempt … Read more

Genetic Networks, Part 6: Find Same Matches Across Multiple DNA Websites

In genetic genealogy, the more matches we have, the greater our ability to make ancestral discoveries. Having more data points increases our confidence with the sub-clusters observed within genetic networks as discussed in the previous post in this series (Part 5). It can also help us prioritize our research efforts as we progress into documentary … Read more

Genetic Networks, Part 5: Use Ancestry Pro Tools’ Enhanced Shared Matches

Genetic Networks, Part 5: Use Ancestry Pro Tools' Enhanced Shared Matches

In the previous blog posts, I defined genetic networks (Part 1), discussed the inclusion and exclusion criteria for matches within the network (Part 2), described how to find them (Part 3), and demonstrated how to efficiently review your matches’ family trees (Part 4). Now, I describe how to use Ancestry Pro Tools’ Enhanced Shared Matches … Read more

Genetic Networks, Part 4: Efficiently Review Matches’ Family Trees

Genetic networks: learn how to efficiently review the family trees found within genetic networks

In the previous blog posts, I defined genetic networks (Part 1), discussed the inclusion and exclusion criteria for matches within the network (Part 2), and described how to find them (Part 3). Now, I demonstrate how to efficiently review the family trees for the shared matches within a genetic network to discover your unknown ancestors. … Read more

Genetic Networks, Part 2: How to Identify Misclassified Members

Genetic Networks: How to identify misclassified members, part 2

In Part 1 of the Genetic Network blog post series, I defined genetic networks and provided several visualizations for the types of DNA matches forming genetic networks. I labeled these matches as A (test taker), B (match being viewed), and C (matches that match both A and B). As the Part 2 title suggests, there … Read more

Genetic Networks, Part 1: What are They?

What are genetic networks, part 1

If you’re not using genetic networks to evaluate your autosomal DNA matches, then you’re missing opportunities to efficiently mine your matches for ancestral clues. Reviewing your DNA matches can be overwhelming, and it can quickly become daunting to use them to confidently build out your family tree. But it doesn’t have to be this way … Read more

Ancestry Pro Tools’ Enhanced Shared Matches: Is It Worth $10 per Month?

Ancestry's Pro Tools' Enhanced Shared Matches: Is it Worth it?

Just a few days ago, Ancestry launched Enhanced Shared Matches as part of their Pro Tools. Ancestry.com customers need to pay $10 per month for Pro Tools in addition to their regular subscription rate. In this post, I answer the question, “is it worth the extra cost?” Enhanced Shared Matches provides additional information about the … Read more

Genealogical Breadcrumbs: How to Follow the Right Path

GenealogicalBreadcrumbs:How to Follow the Right Path cover image

Our ancestors left us clues in the documents they created to help us with our genealogical research. You just need to follow the “genealogical breadcrumbs” to discover that next elusive generation. However, sometimes the path they left is not so clear, and we can be deceived into jumping down rabbit holes of distracting, irrelevant, but … Read more

Fewer DNA Matches in the Future

Demographic study hints to fewer DNA matches in the future

For genetic genealogists, the promise of new DNA matches is both exciting and a necessary component of our research strategy. However, a recent demographic study finds that the number of living kin for the average person will reduce by 38% in the future suggesting we may have fewer DNA matches. The demographic shifts are not … Read more