利基
竞赛(生物学)
生物
基因组
生态系统
生态位分化
生态学
生态位
通才与专种
资源(消歧)
生物多样性
功能(生物学)
进化生物学
公制(单位)
环境生态位模型
社区
可扩展性
计算生物学
基因组
物种丰富度
生态系统服务
系统发育树
微生物群
基因组学
理论生态学
模块化(生物学)
系统发育学
现象
分类单元
作者
Célio Dias Santos-Júnior,María Camila Escobar,Paula Huber,Juan Pablo Niño-Garcia,Gladys Inés Cardona,Raul Costa‐Pereira,Hugo Sarmento
标识
DOI:10.1073/pnas.2526391123
摘要
Microbial competition for scarce resources shapes biodiversity patterns and ecosystem function across global biomes, yet quantifying this process from genomic data has remained elusive. Here, we introduce CaCo, a scalable metric that transforms metagenomic carbohydrate-active enzyme profiles into precise measures of niche overlap and competition potential (Resource Partitioning Score, RPS). Analyzing 14,691 high-quality metagenome-assembled genomes spanning Ocean, freshwater, soil, and human gut microbiomes, we reveal a striking macroecological pattern: Niche overlap increases from partitioned specialists in oligotrophic oceans to overlapping generalists in carbon-rich environments, including the human gut. This gradient aligns with classic niche theory, as phylogenetic signals indicate that closely related taxa may compete most intensely. Multitiered validation, spanning BIOLOG phenotypes, synthetic cocultures, and interaction gradients, confirms CaCo's predictive power and captures competitive exclusion. CaCo bridges genomic potential and ecological reality, providing niche-breadth metrics and enabling testable predictions of how resource availability shapes microbial competition and community structure.
科研通智能强力驱动
Strongly Powered by AbleSci AI