TY - JOUR
T1 - Assessing the role of large herbivores in the structuring and functioning of freshwater and marine angiosperm ecosystems
AU - Bakker, Elisabeth S.
AU - Pagès, Jordi F.
AU - Arthur, Rohan
AU - Alcoverro, Teresa
N1 - 5914, AqE; Data archiving: No data (review)
PY - 2016
Y1 - 2016
N2 - While large herbivores can have strong impacts on terrestrial ecosystems, much less is known of their role in aquatic systems. We reviewed the literature to determine: (1) which large herbivores (>10 kg) have a (semi-)aquatic lifestyle and are important consumers of submerged vascular plants, (2) their impact on submerged plant abundance and species composition and (3) their ecosystem functions.We grouped herbivores according to diet, habitat selection and movement ecology: (1) Fully aquatic species, either resident or migratory (manatees, dugongs, turtles), (2) Semi-aquatic species that live both in water and on land, either resident or migratory (swans), (3) Resident semi-aquatic species that live in water and forage mainly on land (hippopotamuses, beavers, capybara), (4) Resident terrestrial species with relatively large home ranges that frequent aquatic habitats (cervids, water buffalo, lowland tapir).Fully aquatic species and swans have the strongest impact on submerged plant abundance and species composition. They may maintain grazing lawns. Because they sometimes target belowground parts, their activity can result in local collapse of plant beds. Semi-aquatic species and turtles serve as important aquatic-terrestrial linkages, by transporting nutrients across ecosystem boundaries. Hippopotamuses and beavers are important geomorphological engineers, capable of altering the land and hydrology at landscape scales. Migratory species and terrestrial species with large home ranges are potentially important dispersal vectors of plant propagules and nutrients. Clearly, large aquatic herbivores have strong impacts on associated species and can be critical ecosystem engineers of aquatic systems, with the ability to modify direct and indirect functional pathways in ecosystems. While global populations of large aquatic herbivores are declining, some show remarkable local recoveries with dramatic consequences for the systems they inhabit. A better understanding of these functional roles will help set priorities for the effective management of large aquatic herbivores along with the plant habitats they rely on.This article is protected by copyright. All rights reserved.
AB - While large herbivores can have strong impacts on terrestrial ecosystems, much less is known of their role in aquatic systems. We reviewed the literature to determine: (1) which large herbivores (>10 kg) have a (semi-)aquatic lifestyle and are important consumers of submerged vascular plants, (2) their impact on submerged plant abundance and species composition and (3) their ecosystem functions.We grouped herbivores according to diet, habitat selection and movement ecology: (1) Fully aquatic species, either resident or migratory (manatees, dugongs, turtles), (2) Semi-aquatic species that live both in water and on land, either resident or migratory (swans), (3) Resident semi-aquatic species that live in water and forage mainly on land (hippopotamuses, beavers, capybara), (4) Resident terrestrial species with relatively large home ranges that frequent aquatic habitats (cervids, water buffalo, lowland tapir).Fully aquatic species and swans have the strongest impact on submerged plant abundance and species composition. They may maintain grazing lawns. Because they sometimes target belowground parts, their activity can result in local collapse of plant beds. Semi-aquatic species and turtles serve as important aquatic-terrestrial linkages, by transporting nutrients across ecosystem boundaries. Hippopotamuses and beavers are important geomorphological engineers, capable of altering the land and hydrology at landscape scales. Migratory species and terrestrial species with large home ranges are potentially important dispersal vectors of plant propagules and nutrients. Clearly, large aquatic herbivores have strong impacts on associated species and can be critical ecosystem engineers of aquatic systems, with the ability to modify direct and indirect functional pathways in ecosystems. While global populations of large aquatic herbivores are declining, some show remarkable local recoveries with dramatic consequences for the systems they inhabit. A better understanding of these functional roles will help set priorities for the effective management of large aquatic herbivores along with the plant habitats they rely on.This article is protected by copyright. All rights reserved.
KW - international
U2 - 10.1111/ecog.01651
DO - 10.1111/ecog.01651
M3 - Article
SN - 1600-0587
VL - 39
SP - 162
EP - 179
JO - Ecography
JF - Ecography
IS - 2
ER -