A KULTURÁLIS ÉS INNOVÁCIÓS MINISZTÉRIUM ÚNKP-23-3-I KÓDSZÁMÚ ÚJ NEMZETI KIVÁLÓSÁG
PROGRAMJÁNAK A ...(ÚNKP-23-3-I) Támogató: KIM
(KKP 144068) Támogató: NKFIH
(K 137573) Támogató: OTKA/ NKFIH
(PD 137747) Támogató: NKFIH
(BO/00587/23/8)
Szakterületek:
Környezettudomány
Studying the relationship between biodiversity patterns and processes in vegetation
has been at
the centre of interest in vegetation ecology for several decades. By studying the
biomass of
loess and alkaline grasslands along a water and salinity gradient, we aimed to analyse
species
diversity and Grime’s competitor-stress tolerator-ruderal (CSR) functional strategy
patterns.
We aimed to test the following hypotheses: i) The biomass and species richness scores
and the
species composition are significantly different between the sampled grassland community
types. ii) The sampled communities are well separated based on the CSR strategy spectrum.
iii)
The amount of green biomass and litter are positively correlated with competitiveness
and
negatively with stress tolerance. The biomass and species richness scores and the
species
composition of the sampled communities along the sampled gradients were significantly
different; the highest species richness, evenness and Shannon diversity values were
found in
loess grasslands. The highest level of litter accumulation was found in alkaline meadows.
The
communities were well separated in the ordinations but surprisingly, calculation of
coordinates
for CSR strategy types have not shown clear separation of the grassland community
types. All
the communities were proven to be characterised by a high level of stress (located
in the right
corner of the CSR ternary diagram), but they markedly differed in the magnitude of
competition
and levels of disturbance expressed in the differences of ruderality. These results
might suggest
that even in highly stressed communities the community composition is strongly dependent
on
the differences in disturbance intensity (e.g., intensity and duration of grazing)
and it is also
strongly influenced by the competitive ability of constituting species.