Rarity in freshwater vascular plants across Europe and North America:patterns, mechanisms and future scenarios

Autor: Lars Iversen, Janne Alahuhta, Jani Heino, Jorge García-Girón, Aveliina Helm
Jazyk: angličtina
Rok vydání: 2021
Předmět:
010504 meteorology & atmospheric sciences
Biodiversity
Distribution (economics)
Fresh Water
010501 environmental sciences
01 natural sciences
Common species
mannerilmasto
ilmasto
Climate change
Waste Management and Disposal
biology
Ecology
Last glacial maximum
levinneisyys
eliöyhteisöt
Latitudinal gradient
Pollution
Europe
Geography
Rarity hotspots
Vascular plant
Environmental Engineering
uhanalaisuus
Climate Change
Rare species
lajien harvinaisuus
ilmastovaikutukset
Effects of global warming
monimuotoisuus
kasvit
Environmental Chemistry
Humans
Human footprint
lajit
0105 earth and related environmental sciences
business.industry
uhanalaiset kasvit
15. Life on land
ilmastonmuutokset
biology.organism_classification
luonnon monimuotoisuus
biodiversiteetti
harvinaisuudet
13. Climate action
North America
lajien uhanalaisuus
putkilokasvit
makea vesi
Species richness
business
vesikasvit
ihmisen vaikutus
Aquatic macrophytes
Popis: Highlights • New empirical studies are repeatedly demonstrating the importance of rare species. • However, very little is still known about species rarity in the aquatic realm. • Continental maps suggest variable latitudinal trends in freshwater plants. • Human footprint, past and present-day climates predict rarity hotspots. • Current centers of freshwater plant rarity might shrink within a century. Patterns of species rarity have long fascinated ecologists, yet most of what we know about the natural world stems from studies of common species. A large proportion of freshwater plant species has small range sizes and are therefore considered rare. However, little is known about the mechanisms and geographical distribution of rarity in the aquatic realm and to what extent diversity of rare species in freshwater plants follows their terrestrial counterparts. Here, we present the first in–depth analysis of geographical patterns, potential deterministic ecogeographical factors and projected scenarios of freshwater vascular plant rarity using 50 × 50 km grid cells across Europe (41°N–71°N) and North America (25°N–78°N). Our results suggest that diversity of rare species shows different patterns in relation to latitude on the two continents, and that hotspots of rarity concentrate in a relatively small proportion of the European and North American land surface, especially in mountainous as well as in climatically rare and stable areas. Interestingly, we found no differences among alternative rarity definitions and measures when delineating areas with notably high diversity of rare species. Our findings also indicate that few variables, namely a combination of current climate, Late Quaternary climate–change velocity and human footprint, are able to accurately predict the location of continental centers of rare species diversity. However, these relationships are not geographically homogeneous, and the underlying factors likely act synergistically. Perhaps more importantly, we provide empirical evidence that current centers of rare species diversity are characterized by higher anthropogenic impacts and might shrink disproportionately within this century as the climate changes. Our reported distributional patterns of species rarity align with the known trends in species richness of other freshwater organisms and may help conservation planners make informed decisions mitigating the effects of climate change and other anthropogenic impacts on biodiversity.
Databáze: OpenAIRE
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