Шинэ судалгаагаар эртний дөрвөн хөлт амьтад өмнө нь таамаглаж байсанчлан усны амьдралаас хуурай газрын амьдралд шилжихдээ завсрын авгалдай үеийг дамждаггүй байсныг тогтоожээ.
Иллинойс мужийн Мазон Крик бүсээс олдсон эртний сээр нуруутан амьтдын бүрэн бүтэн хадгалагдсан чулуужсан олдворуудад “Science” сэтгүүлд нийтлэгдсэн судалгааг үндэслэн дүн шинжилгээ хийжээ. Уг олдворууд нь 350-280 сая жилийн өмнө амьдарч байсан, матар төст махчин амьтад болох эмболомеруудын өсвөр үеийнхнийг харуулдаг. Судлаач Аржан Манн болон түүний багийнхан олон нийтийн оролцоотойгоор цуглуулсан эдгээр ховор олдворуудыг “боломжгүй зүйлийг хадгалсан цаг хугацааны капсул” хэмээн тодорхойлсон байна.
Судалгааны үр дүнгээс харахад өсвөр насны эмболомеруудад сэлүүр хөлт амьтдын авгалдайд байдаг гадны заламгай болон таатай төст биеийн бүтэц огт илрээгүй байна. Энэ нь эртний дөрвөн хөлт амьтад усны амьдралаас хуурай газрын амьдралд шилжихдээ метаморфоз буюу хувирал явагддаг гэх уламжлалт онолыг үгүйсгэж байна.
Эрдэмтэн Жейсон Пардогийн тайлбарласнаар, эдгээр амьтан нь өсөж томрохдоо авгалдайн үе шатгүйгээр шууд хөгждөг байсан нь өнөөгийн хэвлээр явагчид, шувууд болон хөхтөн амьтдын хөгжлийн хэв маягтай төстэй юм. Энэхүү нээлт нь амьтдын хуурай газарт дасан зохицсон үйл явцын талаарх шинжлэх ухааны ойлголтыг үндсээр нь өөрчилж байна.
Дэлгэрэнгүйг эх сурвалжаас харах
↓Эх сурвалжийг нээх ↓
Life on Earth began in water, yet a new fossil discovery suggests that the earliest vertebrates to venture onto land may not have developed in the way long assumed. A study published in Science describes fossilized juvenile tetrapods that lack the amphibian-like larval stage traditionally expected in early four-limbed animals.
For decades, the dominant evolutionary narrative described a gradual transition from fish to land vertebrates through amphibian-like intermediates. In that framework, early tetrapods were thought to hatch as aquatic larvae resembling tadpoles, later transforming through metamorphosis into land-capable adults. This idea became widely taught, even though fossil evidence for early developmental stages has remained extremely rare.
The new findings are based on exceptionally preserved fossils from Mazon Creek in Illinois, a site known for capturing fine anatomical detail, including fragile juveniles.
A Fossil Site That Preserves Early Growth Stages
Mazon Creek, located roughly an hour southwest of Chicago, is widely recognized for its ability to preserve soft-bodied organisms and delicate skeletal material. Field Museum researchers describe it as one of the few sites where juvenile vertebrates can be studied in meaningful detail, because even small and fragile individuals can be fossilized intact.
Assistant curator Arjan Mann described the locality as a “time capsule that capture the impossible,” noting how unusual it is to recover early life stages of extinct animals.
The study is based on dozens of specimens from this site, many of which were not discovered solely by professional teams but also by citizen scientists and local fossil collectors. Mann noted that:
“Every single specimen in this paper was a joint effort with the Earth Science Club of Northern Illinois, the Lauer Foundation for Paleontology, Science and Education, and the Field Museum. We could not have done this without the help of lots of scientists, including citizen scientists and volunteers.”
Embolomeres That Grew Up Without A “Kid” Stage
Among the most significant material are juvenile embolomeres, an extinct group of early tetrapods that lived between roughly 350 and 280 million years ago. Adult embolomeres were large, crocodile-like predators that could exceed 10 feet in length and dominated freshwater ecosystems such as rivers, lakes, and swamps.
The juvenile specimens are only a few centimeters long, yet they already display limb development consistent with early tetrapods. What is notably missing are features typically associated with amphibian larvae, including external gills and a distinct tadpole-like body plan.
The study reports that multiple specimens across different lineages show the same pattern: development appears direct, without a recognizable metamorphic stage. Co-lead author Jason Pardo stated that:
“This is the first time we’ve had these early, early hatchling animals. This discovery is really a testament to the power of Mazon Creek, the site where these fossils came from.”
He also pointed out that the absence of a tadpole phase challenges the assumption that early tetrapods followed amphibian-style development, since metamorphosis depends on a clearly defined larval form.
Revisiting How Vertebrates Adapted To Land
For a long time, metamorphosis was considered a key mechanism helping vertebrates transition from water to land, providing a bridge between aquatic juveniles and terrestrial adults. Fossil data indicate this mechanism likely did not operate widely in early tetrapods.
Pardo explained that without a tadpole stage, the classical model of metamorphosis does not fit these animals in the way previously assumed. He also noted that:
“The story was that metamorphosis is the tool by which animals made the transition from water to land. That story doesn’t work anymore, it’s dust in the wind.”
Instead, the study indicates that early tetrapods may have developed in a more direct manner, with juveniles resembling smaller versions of adults, similar to modern reptiles, birds, and mammals. This pattern appears across several fossil groups examined from Mazon Creek, suggesting it was not isolated to a single lineage.
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