Your search keyword '"Håkan Rydin"' showing total 3 results

1. Mechanisms behind species-specific water economy responses to water level drawdown in peat mosses

Author

Gustaf Granath, Fia Bengtsson, Nils Cronberg, and Håkan Rydin

Subjects

0106 biological sciences, Peat, bulk density, Climate Change, Ecology (disciplines), water economy, Plant Science, Biology, 010603 evolutionary biology, 01 natural sciences, Sphagnum, Soil, Ecohydrology, Sphagnopsida, medicine, pore size, capitulum water content, Ecosystem, Hydrology, Ekologi, Ecology, Botany, Water, Botanik, biology.organism_classification, Bulk density, Water level, Water retention, peat mosses, Drawdown (hydrology), leaf anatomy, medicine.symptom, hyaline cell, 010606 plant biology & botany

Abstract

Background and AimsThe ecosystem engineers Sphagnum (peat mosses) are responsible for sequestering a large proportion of carbon in northern peatlands. Species may respond differently to hydrological changes, and water level changes may lead to vegetation shifts in peatlands, causing them to revert from sinks to sources of carbon. We aimed to compare species-specific responses to water level drawdown within Sphagnum, and investigate which traits affect water economy in this genus.MethodsIn a mesocosm experiment, we investigated how water level drawdown affected water content (WC) in the photosynthetically active apex of the moss and maximum quantum yield of photosystem II (i.e. Fv/Fm) of 13 Sphagnum species. Structural traits were measured, and eight anatomical traits were quantified from scanning electron microscopy micrographs.Key ResultsMixed-effects models indicated that at high water level, large leaves were the most influential predictor of high WC, and at low water level WC was higher in species growing drier in the field, with larger hyaline cell pore sizes and total pore areas associated with higher WC. Higher stem and peat bulk density increased WC, while capitulum mass per area and numerical shoot density did not. We observed a clear positive relationship between Fv/Fm and WC in wet-growing species.ConclusionsWhile we found that most hummock species had a relatively high water loss resistance, we propose that some species are able to maintain a high WC at drawdown by storing large amounts of water at a high water level. Our result showing that leaf traits are important warrants further research using advanced morphometric methods. As climate change may lead to more frequent droughts and thereby water level drawdowns in peatlands, a mechanistic understanding of species-specific traits and responses is crucial for predicting future changes in these systems.

Published

2020

2. The effects of winter stress on Sphagnum specieswith contrasting macro- and microdistributions

Author

Håkan Rydin and Charles Campbell

Subjects

0106 biological sciences, Ekologi, Evolutionary Biology, Peat, biology, Ecology, Cold tolerance, Species distribution, Botany, Plant Science, cold tolerance, Botanik, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Sphagnum, winter, Evolutionsbiologi, Geography, species distribution, Chlorophyll fluorescence, Ecology, Evolution, Behavior and Systematics, 010606 plant biology & botany

Abstract

Introduction.Sphagnum L. forms much of the ground cover in northern peatlands. Different species show affinities for bioclimatic regions in Europe (oceanic/continental; northern/southern) and species-specific tolerance of winter conditions can be a factor explaining their distribution. Methods. We focussed on low temperature in a series of experiments and tested (1) the innate ability of a selection of Sphagnum species to tolerate low temperature in relation to their micro-topographic (wetness) and geographical (climate) distribution; (2) the rate of cold tolerance acquisition; and (3) the ability of species to survive a range of low temperature once cold hardened. Key results. Our experiments showed that maximal PSII efficiency (Fv/Fm, chlorophyll fluorescence), growth rates and survival were all negatively affected by sub-zero temperatures. Environmental conditions associated with the onset of winter (colder nights and shorter days) triggered the acquisition of cold tolerance in Sphagnum. Conclusions. The results were not unequivocal, but species associated with colder climates were generally more tolerant of sub-zero conditions. Species associated with the wettest and driest ends of the wetness gradient were more consistent in their responses than those in between, with wetter-dwelling species being less sensitive to sub-zero temperature than species found in drier microhabitats. Overall, our results suggest that adaptation to winter conditions contribute to the current distribution patterns of Sphagnum species.

Published

2019

3. Biochemical determinants of litter quality in 15 species of Sphagnum

Author

Tomáš Hájek, Håkan Rydin, and Fia Bengtsson

Subjects

0106 biological sciences, Peat, biology, Peatland, Ecology, Botany, Soil Science, Plant Science, Botanik, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Sphagnum Mosses, Sphagnum, Lignin, Ecosystem engineer, Boreal, Litter, Environmental science, Phenolics, Decay resistance, 010606 plant biology & botany, Waterlogging (agriculture), Sphagnan, Hummock-hollow

Abstract

Background and aims Sphagnum mosses are ecosystem engineers that create and maintain boreal peatlands. With unique biochemistry, waterlogging and acidifying capacities, they build up meters-thick layers of peat, reducing competition and impeding decomposition. We quantify within-genus differences in biochemical composition to make inferences about decay rates, related to hummock–hollow and fen–bog gradients and to phylogeny. Methods We sampled litter from 15 Sphagnum species, abundant over the whole northern hemisphere. We used regression and Principal Components Analysis (PCA) to evaluate general relationships between litter quality parameters and decay rates measured under laboratory and field conditions. Results Both concentrations of the polysaccharide sphagnan and the soluble phenolics were positively correlated with intrinsic decay resistance, however, so were the previously understudied lignin-like phenolics. More resistant litter had more of all the important metabolites; consequently, PC1 scores were related to lab mass loss (R2 = 0.57). There was no such relationship with field mass loss, which is also affected by the environment. PCA also revealed that metabolites clearly group Sphagnum sections (subgenera). Conclusions We suggest that the commonly stated growth-decomposition trade-off is largely due to litter quality. We show a strong phylogenetic control on Sphagnum metabolites, but their effects on decay are affected by nutrient availability in the habitat.

Published

2018