Scientists propose new theory on the origins of life on Earth
科學家提出地球生命起源的新理論
更新於: 2026年6月13日 下午12:45
How did life on Earth begin?
地球上的生命是如何開始的?
For decades, scientists have debated the mystery of abiogenesis—the process where non-living matter transitions into living systems.
幾十年來,科學家一直在爭論有關「非生源論 」的謎題,即非生命物質轉變為生命系統的過程。
While old theories like the 'primordial soup' provided a starting point, modern research suggests a more complex, unified scenario.
雖然像「原始湯」這樣的舊理論提供了一個起點,但現代研究顯示了一個更加複雜、統一的情境。
Scientists no longer search for a single 'magic spark'; instead, they are mapping out a series of environmental triggers that worked in tandem.
科學家已不再尋找單一的「神奇火花」;相反地,他們正在繪製一系列共同作用的環境觸發因素。
Recent findings from 2026 highlight fascinating mechanisms: nanozymes, or mineral nanoparticles, may have acted as biological engines, while icy freeze-thaw cycles could have helped primitive protocells grow and store genetic data.
2026年的最新發現突顯了一些迷人的機制:奈米酶(即礦物奈米顆粒)可能曾擔當生物引擎的角色,而冰凍解凍循環可能幫助原始原生細胞生長並儲存遺傳數據。
Even the violent asteroid bombardments of early Earth might have been beneficial, creating hydrothermal networks that nurtured prebiotic chemistry.
即便是早期地球遭受的猛烈小行星轟炸,可能也有所裨益,它創造出了滋養前生物化學的熱液網絡。
By combining computational modeling with laboratory simulations, experts are moving closer to understanding how our planet transitioned from simple minerals to the complex, self-replicating life we see today.
透過將計算模型與實驗室模擬相結合,專家們正越來越接近理解我們的行星是如何從簡單的礦物轉變為今天所見的複雜、自我複製的生命。
Science is revealing that life likely didn't arise from one lucky event, but from a perfect combination of planetary conditions.
科學正在揭示,生命很可能不是由一次幸運事件所引發的,而是源於行星條件的完美組合。
