Effect of plant species richness on invasibility of experimental plant communities

Vojtěch Lanta; Jan Lepš

doi:10.1007/s11258-008-9401-6

The invasive herb Lupinus polyphyllus can reduce plant species richness independently of local invasion age

Biological Invasions ◽

10.1007/s10530-021-02652-y ◽

2021 ◽

Author(s):

Marju Prass ◽

Satu Ramula ◽

Miia Jauni ◽

Heikki Setälä ◽

D. Johan Kotze

Keyword(s):

Species Richness ◽

Plant Species ◽

Plant Community ◽

Plant Communities ◽

Vascular Plant ◽

Plant Species Richness ◽

Ecological Impacts ◽

Plant Community Composition ◽

Lupinus Polyphyllus ◽

Local Invasion

AbstractThe ecological impacts of invasive species may change or accumulate with time since local invasion, potentially inducing further changes in communities and the abiotic environment. Yet, time since invasion is rarely considered when investigating the ecological impacts of invasive non-native species. To examine the effect of time since invasion on the ecological impacts of Lupinus polyphyllus, a perennial nitrogen-fixing herb, we surveyed vascular plant communities in the presence and absence of L. polyphyllus in young, intermediate, and old semi-natural grassland sites (ca. 5, 10, 15 years representing both time since lupine invasion and plant community age). We analyzed vascular plant community composition, vascular plant species richness, and the cover of various ecological plant groups and L. polyphyllus. In contrast to our hypotheses, we found no change in the mean cover of L. polyphyllus (about 35%) with time since local invasion, and an ordination did not suggest marked changes in plant community composition. L. polyphyllus was associated with lower species richness in invaded plant communities but this effect did not change with time since invasion. Invaded plant communities were also associated with lower occurrence of generalist, oligotrophic (low-nutrient-adapted) and copiotrophic (nutrient-demanding) species but no temporal dynamics were detected. We conclude that even the intermediate cover of L. polyphyllus can reduce plant species richness, but the ecological impact caused by this invader might not dramatically change or accumulate with time since invasion.

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Plant species richness is not consistently associated with productivity in experimental subalpine meadow plant communities

Folia Geobotanica ◽

10.1007/s12224-015-9216-x ◽

2015 ◽

Vol 50 (3) ◽

pp. 207-217 ◽

Cited By ~ 4

Author(s):

Ziqiang Yuan ◽

Kailiang Yu ◽

Howard Epstein ◽

Katia Stefanova ◽

Rong Zhang

Keyword(s):

Species Richness ◽

Plant Species ◽

Plant Communities ◽

Plant Species Richness ◽

Subalpine Meadow

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Effects of plant species diversity on nematode community composition and diversity in a long-term biodiversity experiment

Oecologia ◽

10.1007/s00442-021-04956-1 ◽

2021 ◽

Author(s):

Peter Dietrich ◽

Simone Cesarz ◽

Tao Liu ◽

Christiane Roscher ◽

Nico Eisenhauer

Keyword(s):

Species Richness ◽

Community Composition ◽

Plant Species ◽

Plant Communities ◽

Plant Diversity ◽

Plant Species Richness ◽

Resource Quality ◽

Plant Feeding ◽

Shoot Mass

AbstractDiversity loss has been shown to change the soil community; however, little is known about long-term consequences and underlying mechanisms. Here, we investigated how nematode communities are affected by plant species richness and whether this is driven by resource quantity or quality in 15-year-old plant communities of a long-term grassland biodiversity experiment. We extracted nematodes from 93 experimental plots differing in plant species richness, and measured above- and belowground plant biomass production and soil organic carbon concentrations (Corg) as proxies for resource quantity, as well as C/Nleaf ratio and specific root length (SRL) as proxies for resource quality. We found that nematode community composition and diversity significantly differed among plant species richness levels. This was mostly due to positive plant diversity effects on the abundance and genus richness of bacterial-feeding, omnivorous, and predatory nematodes, which benefited from higher shoot mass and soil Corg in species-rich plant communities, suggesting control via resource quantity. In contrast, plant-feeding nematodes were negatively influenced by shoot mass, probably due to higher top–down control by predators, and were positively related to SRL and C/Nleaf, indicating control via resource quality. The decrease of the grazing pressure ratio (plant feeders per root mass) with plant species richness indicated a higher accumulation of plant-feeding nematodes in species-poor plant communities. Our results, therefore, support the hypothesis that soil-borne pathogens accumulate in low-diversity communities over time, while soil mutualists (bacterial-feeding, omnivorous, predatory nematodes) increase in abundance and richness in high-diversity plant communities, which may contribute to the widely-observed positive plant diversity–productivity relationship.

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Thermo-erosion gullies boost the transition from wet to mesic tundra vegetation

Biogeosciences ◽

10.5194/bg-13-1237-2016 ◽

2016 ◽

Vol 13 (4) ◽

pp. 1237-1253 ◽

Cited By ~ 9

Author(s):

Naïm Perreault ◽

Esther Lévesque ◽

Daniel Fortier ◽

Laurent J. Lamarque

Keyword(s):

Species Richness ◽

Soil Moisture ◽

Plant Species ◽

Plant Communities ◽

Stable State ◽

Plant Species Richness ◽

Arctic Ecosystems ◽

Erosion Processes ◽

Short Period ◽

Ice Wedge

Abstract. Continuous permafrost zones with well-developed polygonal ice-wedge networks are particularly vulnerable to climate change. Thermo-mechanical erosion can initiate the development of gullies that lead to substantial drainage of adjacent wet habitats. How vegetation responds to this particular disturbance is currently unknown but has the potential to significantly disrupt function and structure of Arctic ecosystems. Focusing on three major gullies of Bylot Island, Nunavut, we estimated the impacts of thermo-erosion processes on plant community changes. We explored over 2 years the influence of environmental factors on plant species richness, abundance and biomass in 62 low-centered wet polygons, 87 low-centered disturbed polygons and 48 mesic environment sites. Gullying decreased soil moisture by 40 % and thaw-front depth by 10 cm in the center of breached polygons within less than 5 years after the inception of ice wedge degradation, entailing a gradual yet marked vegetation shift from wet to mesic plant communities within 5 to 10 years. This transition was accompanied by a five times decrease in graminoid above-ground biomass. Soil moisture and thaw-front depth changed almost immediately following gullying initiation as they were of similar magnitude between older (> 5 years) and recently (< 5 years) disturbed polygons. In contrast, there was a lag-time in vegetation response to the altered physical environment with plant species richness and biomass differing between the two types of disturbed polygons. To date (10 years after disturbance), the stable state of the mesic environment cover has not been fully reached yet. Our results illustrate that wetlands are highly vulnerable to thermo-erosion processes, which drive landscape transformation on a relative short period of time for High Arctic perennial plant communities (5 to 10 years). Such succession towards mesic plant communities can have substantial consequences on the food availability for herbivores and carbon emissions of Arctic ecosystems.

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Diversity of the Western Carpathian flysch grasslands: Do extremely species-rich plant communities coincide with a high diversity of snails?

Biologia ◽

10.2478/s11756-013-0299-7 ◽

2014 ◽

Vol 69 (2) ◽

Cited By ~ 1

Author(s):

Jana Dvořáková ◽

Kristina Merunková ◽

Zdenka Preislerová ◽

Michal Horsák ◽

Milan Chytrý

Keyword(s):

Species Richness ◽

Species Composition ◽

Plant Species ◽

Plant Communities ◽

Abiotic Factors ◽

Local Environment ◽

Plant Species Richness ◽

Snail Species ◽

Local Species ◽

White Carpathians

AbstractUpland fringes of the White Carpathians (Czech Republic) are known to support grasslands with the world’s highest local plant species richness. We investigated whether this unusually high plant richness has a parallel in snail communities, whether patterns of species composition of snail and plant communities in grasslands co-vary and how they are affected by local environment and landscape history. We compared plant and snail communities of dry to mesic grasslands in three neigh bouring regions: (1) hilly lowland of the Central Moravian Carpathians, (2) upland fringes and (3) upland of the White Carpathians. Both snail and plant communities exhibited a strong gradient in species composition associated with altitude, annual temperature and precipitation, soil calcium and pH. However, there was no correlation between local species richness of plants and snails in individual plots. The upland fringes of the White Carpathians were richest in snail species, probably due to intermediate environmental conditions, supporting the occurrence of species with contrasting environmental requirements. The highest local numbers of plant species were also recorded there, although differences among regions were not significant. The regional species richness of plants was also highest in the upland fringes, whereas that of snails was highest in the hilly lowland. Similarities in the diversity patterns of plants and snails among regions suggest the importance of regional factors for local richness, although local abiotic factors, which are partly correlated with the three regions, also influence local species composition and richness.

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