系统发育树
概念框架
转化式学习
树(集合论)
功能(生物学)
生物
数据科学
生命之树(生物学)
桥(图论)
钥匙(锁)
系统发育比较方法
转化(遗传学)
路径(计算)
计算机科学
生态学
宏
功能生态学
植物种类
计算生物学
基因组学
进化生物学
相互依存
拟南芥
概念模型
适应(眼睛)
极限(数学)
作者
Carrie M. Tribble,Verónica S. Di Stilio
摘要
Understanding how plant innovations arise and persist requires connecting mechanisms across biological scales. The growing accessibility of genomic data and methodological advances in phylogenetic comparative methods provide unprecedented opportunities to achieve this integration. Yet, functional tools remain unevenly distributed across the plant Tree of Life, and conceptual differences across scales of inquiry limit integration. Here, we highlight emerging approaches that bridge developmental, genomic, and macroevolutionary research to generate a more comprehensive view of plant evolution. We propose building a "Functional Tree of Plant Life" by investing in shared infrastructure and funding programs for developing transformation techniques and building genetic resources to incentivize research in nonmodel taxa. Concurrently, further methodological advances in phylogenetic comparative methods are needed to continue accommodating complex developmental, genomic, and transcriptomic data. Combined, these efforts would enable experimental validation of gene function across diverse lineages and improve reconstructions of the evolution of genetic pathways and the developmental origins of key phenotypes. Building this integrative framework will require both conceptual synthesis, collaboration, and community investment but offers a transformative path toward understanding the evolution of plant form and function.
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