How Changes In Birding Allowed for an Epic Milestone in 2024

Earlier this year, Peter Kaestner became the first to see 10,000 different bird species in a lifetime. What does the future of birding hold?
A White-breasted Nuthatch clings upside down to a tree against an out-of-focus orange background.
White-breasted Nuthatch. Photo: Doug Dearinger/探花精选 Photography Awards

As we look back on an outgoing 2024, it鈥檚 important to mark an important birding milestone from earlier in the year. On February 9, Peter Kaestner, amidst the lush landscapes of Bislig, eastern Mindanao, Philippines, set his sights on an Orange-tufted Spiderhunter and carved his name into the annals of birding history, He became the first person to observe 10,000 bird species within a single lifetime. This extraordinary achievement, observing roughly 90 percent of all the world鈥檚 living bird species, reflects Herculean dedication, meticulous planning, and fortuitous encounters. But could such a triumph have been possible or conceivable merely a few decades prior?

鲍苍濒颈办别濒测.鈥&苍产蝉辫;

While dedicated birders have always pushed the envelope of what鈥檚 possible to see within a lifetime, as evidenced by figures like Phoebe Snetsinger, the real X-factors in making this particular milestone achievable have been the recent taxonomic and technological advancements in ornithology and birding. These advancements have played a pivotal role in bridging the gap between aspiration and accomplishment, bringing remarkable feats like Kaestner鈥檚 within reach. Further, achievements such as Kaestner鈥檚 are not only inspirational but also consequential, extending beyond personal triumphs by generating awareness and catalyzing much-needed change within the broader birding and conservation communities.  

There Are More Bird Species Than Ever 

Taxonomy, the scientific discipline dedicated to classifying life forms, is the primary means of ascertaining the number of species, including birds, inhabiting our planet. It illuminates the interconnections among organisms, helping to delineate species from one another. However, taxonomy is dynamic, evolving with scientific progress, advancements, and discoveries. As a result, routine taxonomic updates occur, providing a contemporary understanding of the number of species and how they are related. These understandings have profound impacts on many things, including conservation and birding. 

罢丑别鈥, the primary taxonomic reference for Kaestner and many global birders, documents over 11,000 species, recognizing more species than any other authority, including鈥痑苍诲鈥. Each year, driven by discoveries in genetic research, vocalization analyses, tracking data, and other documentation methods, scientific advancements lead to the discovery of new species alongside reclassifying existing ones. Identifiable subspecies may be recognized and split as full species, while other closely related species may be lumped together as subspecies. Hardcore birders await taxonomic updates like sports enthusiasts await the draft or trade deadlines, seeing which species are now on the table to chase and which may possibly be removed via lumps. For birders like Kaestner, these updates broaden horizons, introducing new targets while enriching their experiences with newly recognized avian diversity. 

The pace of taxonomic discoveries in recent decades has been remarkable, leading to substantial increases in the number of recognized species, giving birders more targets for their lists. For instance, in the 1970s, taxonomic authorities acknowledged approximately 8,600 species globally, far fewer than today鈥檚 count. Certain species undergo repeated adjustments. What appears as a subspecies today is potentially identified as a distinct species tomorrow. Take the familiar 鈥淪crub Jay,鈥 which has experienced multiple splits over time. Once considered a single species, it was split into three different Scrub-Jay species in 1995, Florida, Island, and Western. Twenty years later, Western Scrub-Jay was itself split into California and Woodhouse鈥檚 Scrub-Jays, with the latter potentially being split further. Such taxonomic refinements continually shape and redefine birding pursuits, highlighting the evolving nature of scientific knowledge.  Such splits can create 鈥渁rmchair lifers鈥 for birders, where recognized and tallied subspecies can add to the overall life list as they are elevated to full species status鈥攚ithout having to travel.

Taxonomic shifts often occur in waves, with particular groups of birds being scrutinized by taxonomists. Currently, island endemic subspecies, including both seabirds and Caribbean landbirds, are receiving significant attention, likely leading to the recognition of 鈥渘ew鈥 species for birders to pursue. 鈥淐ryptic鈥 species, where what visually seems to be a singular taxon is, in fact, multiple species, differentiated primarily by voice, genetics, or breeding biology, are also being recognized.  While this is more frequent in the vast and under-birded forests of the tropics, even birds right under our noses may be split, as when Winter Wren was split to Winter and Pacific wrens in North America鈥攁nd Eurasian Wren in Eurasia.  Remote acoustic sensing of burrow-nesting seabirds and the detailed study of molt patterns also enable taxonomists to realize that 鈥渙ne鈥 species of seabird may be two or more distinct species. 

Birders actively anticipate these taxonomic changes, searching for potential splits before officially recognizing them. By observing distinct subspecies suspected to be unique species in their biology, birders can save time and money on future trips, capitalizing on taxonomic splits as they occur. 

Can You Hear Me Now? How Technology Shapes Birding 

Technological advancements have revolutionized the birding landscape, making achievements like Kaestner鈥檚 observation of 10,000 bird species in a lifetime possible and more accessible. One of the most significant transformations lies in communication channels. Where birders once relied on sporadic rare bird alerts and phone hotlines, today鈥檚 birders leverage real-time messaging apps, social media platforms, and digital forums to share sightings instantly. This instantaneous communication enables birders to collaborate, confirm identifications, and chase rare species efficiently. Those conducting Big Years can now chase a rare bird detected fully across entire countries or continents mere hours after it was discovered. 

Optics and imaging technologies have also undergone significant enhancements, offering birders unparalleled clarity and precision in their observations. Modern binoculars and scopes are lighter, more durable, and equipped with advanced glass, allowing birders like Kaestner to venture into remote habitats and confidently capture detailed views of elusive species.  Also, the rise of digital photography has transformed how birders document their sightings. High-resolution images serve as invaluable tools for species identification and contribute to scientific research and conservation efforts by providing visual records of avian diversity across the globe. Increasing numbers of birders worldwide are switching to birding only with cameras, leaving binoculars behind as they can photograph, identify, document, and share sightings of species all in one step. 

Furthermore, platforms like eBird and iNaturalist have transformed how birders learn about species distribution and access information globally. These digital tools act as dynamic field guides, providing real-time updates on bird sightings, habitat preferences, and migration patterns. With interactive maps and user-generated data, birders can explore new locations and locate rare species with comparative ease. By harnessing the power of technology, birders can now embark on expeditions armed with real-time knowledge and insight, enhancing their ability to see more birds in their lifetime than previously dreamed possible.鈥 

Bird Conservation Benefits from Global Listers like Kaestner 

Kaestner鈥檚 remarkable quest to observe 10,000 bird species in a lifetime transcends mere enumeration, igniting a newfound appreciation for the richness and complexity of avian life while raising awareness about global biodiversity. Before his monumental achievement, many birders remained oblivious to numerous obscure species, including the elusive Orange-tufted Spiderhunter that catapulted Kaestner into the record books. His tireless pursuit expanded our collective understanding of avian biodiversity and the places they call home, highlighting the urgent need to conserve fragile ecosystems worldwide. 

The recognition of taxa as a species, enabled by the passion and efforts of birders and other community scientists, can often benefit conservation.  The cachet of being a species often carries more weight for conservation efforts by communities and governments than a creature or population that is 鈥渏ust鈥 a subspecies. Flagship species often provide a banner for people to rally support for local conservation efforts, with a trickle-up effect of enabling national protection. 

Kaestner鈥檚 journey is a beacon of inspiration, challenging individuals and communities to become stewards of the natural world. Through his extraordinary odyssey, he catalyzes a ripple effect of advocacy and stewardship, empowering people to safeguard the natural heritage that sustains life on Earth. As scientific advances bring more bird species to light each year, we also witness a parallel loss of species due to the impacts of a human-driven planet. In the wake of his historic milestone, the legacy of awareness left behind is a testament to the transformative power of human curiosity and the boundless wonders that await those who dare to explore the world around them.