Form-function relationships in plants underlie their ecosystem roles in supporting higher trophic levels through primary production, detrital pathways, and habitat provision. For widespread, phenotypically-variable plants, productivity may differ not only across abiotic conditions, but also from distinct morphological or demographic traits. A single foundation species, eelgrass (Zostera marina), typically dominates north temperate seagrass meadows, which we studied across 14 sites spanning 32-61° N latitude and two ocean basins. Body size varied by nearly two orders of magnitude through this range, and was largest at mid-latitudes and in the Pacific Ocean. At the global scale, neither latitude, site-level environmental conditions, nor body ...
Form–function relationships in plants underlie their ecosystem roles in supporting higher trophic le...
Form–function relationships in plants underlie their ecosystem roles in supporting higher trophic le...
Form–function relationships in plants underlie their ecosystem roles in supporting higher trophic le...
Form-function relationships in plants underlie their ecosystem roles in supporting higher trophic le...
Form-function relationships in plants underlie their ecosystem roles in supporting higher trophic le...
Abstract Form-function relationships in plants underlie their ecosystem roles in supporting higher t...
Form-function relationships in plants underlie their ecosystem roles in supporting higher trophic le...
Form-function relationships in plants underlie their ecosystem roles in supporting higher trophic le...
Form-function relationships in plants underlie their ecosystem roles in supporting higher trophic le...
Form-function relationships in plants underlie their ecosystem roles in supporting higher trophic le...
Abstract Form-function relationships in plants underlie their ecosystem roles in supporting higher t...
Abstract Form-function relationships in plants underlie their ecosystem roles in supporting higher t...
Abstract Form-function relationships in plants underlie their ecosystem roles in supporting higher t...
Abstract Form-function relationships in plants underlie their ecosystem roles in supporting higher t...
Form–function relationships in plants underlie their ecosystem roles in supporting higher trophic le...
Form–function relationships in plants underlie their ecosystem roles in supporting higher trophic le...
Form–function relationships in plants underlie their ecosystem roles in supporting higher trophic le...
Form–function relationships in plants underlie their ecosystem roles in supporting higher trophic le...
Form-function relationships in plants underlie their ecosystem roles in supporting higher trophic le...
Form-function relationships in plants underlie their ecosystem roles in supporting higher trophic le...
Abstract Form-function relationships in plants underlie their ecosystem roles in supporting higher t...
Form-function relationships in plants underlie their ecosystem roles in supporting higher trophic le...
Form-function relationships in plants underlie their ecosystem roles in supporting higher trophic le...
Form-function relationships in plants underlie their ecosystem roles in supporting higher trophic le...
Form-function relationships in plants underlie their ecosystem roles in supporting higher trophic le...
Abstract Form-function relationships in plants underlie their ecosystem roles in supporting higher t...
Abstract Form-function relationships in plants underlie their ecosystem roles in supporting higher t...
Abstract Form-function relationships in plants underlie their ecosystem roles in supporting higher t...
Abstract Form-function relationships in plants underlie their ecosystem roles in supporting higher t...
Form–function relationships in plants underlie their ecosystem roles in supporting higher trophic le...
Form–function relationships in plants underlie their ecosystem roles in supporting higher trophic le...
Form–function relationships in plants underlie their ecosystem roles in supporting higher trophic le...
Form–function relationships in plants underlie their ecosystem roles in supporting higher trophic le...