Open Access
Urban rendezvous along the seashore: Ports as Darwinian field labs for studying marine evolution in the Anthropocene
Author(s) -
Touchard Fanny,
Simon Alexis,
Bierne Nicolas,
Viard Frédérique
Publication year - 2023
Publication title -
evolutionary applications
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.776
H-Index - 68
ISSN - 1752-4571
DOI - 10.1111/eva.13443
Subject(s) - biology , ecology , adaptation (eye) , anthropocene , abiotic component , habitat , exploit , marine ecosystem , biological dispersal , ecosystem , computer security , neuroscience , computer science , population , demography , sociology
Abstract Humans have built ports on all the coasts of the world, allowing people to travel, exploit the sea, and develop trade. The proliferation of these artificial habitats and the associated maritime traffic is not predicted to fade in the coming decades. Ports share common characteristics: Species find themselves in novel singular environments, with particular abiotic properties—e.g., pollutants, shading, protection from wave action—within novel communities in a melting pot of invasive and native taxa. Here, we discuss how this drives evolution, including setting up of new connectivity hubs and gateways, adaptive responses to exposure to new chemicals or new biotic communities, and hybridization between lineages that would have never come into contact naturally. There are still important knowledge gaps, however, such as the lack of experimental tests to distinguish adaptation from acclimation processes, the lack of studies to understand the putative threats of port lineages to natural populations or to better understand the outcomes and fitness effects of anthropogenic hybridization. We thus call for further research examining “biological portuarization,” defined as the repeated evolution of marine species in port ecosystems under human‐altered selective pressures. Furthermore, we argue that ports act as giant mesocosms often isolated from the open sea by seawalls and locks and so provide replicated life‐size evolutionary experiments essential to support predictive evolutionary sciences.