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  • 1
    Electronic Resource
    Electronic Resource
    Elevated UV-B radiation has no effect on litter quality and decomposition of two dune grassland species: evidence from a long-term field experiment (2004)
    Oxford, UK : Blackwell Publishing
    Global change biology 10 (2004), S. 0 
    Details
    ISSN: 1365-2486
    Source: Blackwell Publishing Journal Backfiles 1879-2005
    Topics: Biology , Energy, Environment Protection, Nuclear Power Engineering , Geography
    Notes: From studies on living plant tissues it has been inferred that elevated UV-B radiation could negatively affect litter quality and subsequent decomposition. However, in general, the effects of UV-B radiation on litter chemistry and decomposition reported in the literature are variable and are often only marginally (if at all) significant. This might be due to the ecologically unrealistic conditions under which these experiments were performed.We investigated the effects of elevated UV-B radiation on litter quality and subsequent decomposition on initial litter chemistry and long-term (2 years) decomposition of freshly senesced Carex arenaria and Calamagrostis epigejos leaf litter under ecologically realistic conditions. This material was collected from a dune grassland that had received UV-B radiation treatments for three growing seasons. It was then used in a 2-year decomposition study using litter bags.We found no significant effects of elevated UV-B radiation on any of the litter chemistry parameters in either of the two species, nor did we find significant effects on litter decomposition. However, we did find significant differences in litter decomposition between the species. These differences were related to the interspecific differences in litter chemistry, particularly the litter phenolics concentration. These results show that litter quality and decomposition in dune grasslands are, also under ecologically realistic conditions, not affected by UV-B radiation. Instead, litter decomposition is determined by constitutive interspecific differences in litter chemistry.In conclusion, with our results added to the already existing literature, the preponderance of evidence now clearly suggests that elevated UV-B radiation has very little, if any, impact on litter quality and subsequent decomposition in real ecosystems.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1111/j.1529-8817.2003.00735.x
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  • 2
    Electronic Resource
    Electronic Resource
    Summer warming and increased winter snow cover affect Sphagnum fuscum growth, structure and production in a sub-arctic bog (2004)
    Oxford, UK : Blackwell Science Ltd
    Global change biology 10 (2004), S. 0 
    Details
    ISSN: 1365-2486
    Source: Blackwell Publishing Journal Backfiles 1879-2005
    Topics: Biology , Energy, Environment Protection, Nuclear Power Engineering , Geography
    Notes: Sphagnum mosses form a major component of northern peatlands, which are expected to experience substantially higher increases in temperature and winter precipitation than the global average. Sphagnum may play an important role in the responses of the global carbon cycle to climate change. We investigated the responses of summer length growth, carpet structure and production in Sphagnum fuscum to experimentally induced changes in climate in a sub-arctic bog. Thereto, we used open-top chambers (OTCs) to create six climate scenarios including changes in summer temperatures, and changes in winter snow cover and spring temperatures. In winter, the OTCs doubled the snow thickness, resulting in 0.5–2.8°C higher average air temperatures. Spring air temperatures in OTCs increased by 1.0°C. Summer warming had a maximum effect of 0.9°C, while vapor pressure deficit was not affected. The climate manipulations had strong effects on S. fuscum. Summer warming enhanced the length increment by 42–62%, whereas bulk density decreased. This resulted in a trend (P〈0.10) of enhanced biomass production. Winter snow addition enhanced dry matter production by 33%, despite the fact that the length growth and bulk density did not change significantly. The addition of spring warming to snow addition alone did not significantly enhance this effect, but we may have missed part of the early spring growth. There were no interactions between the manipulations in summer and those in winter/spring, indicating that the effects were additive. Summer warming may in the long term negatively affect productivity through the adverse effects of changes in Sphagnum structure on moisture holding and transporting capacity. Moreover, the strong length growth enhancement may affect interactions with other mosses and vascular plants. Because winter snow addition enhanced the production of S. fuscum without affecting its structure, it may increase the carbon balance of northern peatlands.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1111/j.1365-2486.2003.00718.x
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  • 3
    Electronic Resource
    Electronic Resource
    Nutrient use efficiency in evergreen and deciduous species from heathlands (1990)
    Springer
    Oecologia 84 (1990), S. 391-397 
    Details
    ISSN: 1432-1939
    Keywords: Nutrient use efficiency ; Mean residence time of nutrients ; Nutrient productivity ; Nutrient resorption ; Litter production
    Source: Springer Online Journal Archives 1860-2000
    Topics: Biology
    Notes: Summary The nutrient (N, P) use efficiency (NUE: g g−1 nutrient), measured for the entire plant, of field populations of the evergreen shrubs Erica tetralix (in a wet heathland) and Calluna vulgaris (in a dry heathland) and the deciduous grass Molinia caerulea (both in a wet and a dry heathland) was compared. Erica and Calluna are crowded out by Molinia when nutrient availability increases. NUE was measured as the product of the mean residence time of a unit of nutrient in the population (MRT: yr) and nutrient productivity (A: annual productivity per unit of nutrient in the population, g g−1 nutrient yr−1. It was hypothesized that 1) in low-nutrient habitats selection is on features leading to a high MRT, whereas in high-nutrient habitats selection is on features leading to a high A; and that 2) due to evolutionary trade-offs plants cannot combine genotypically determined features which maximize both components of NUE. Both total productivity and litter production of the Molinia populations exceeded that of both evergreens about three-fold. Nitrogen and phosphorus resorption from senescing shoots was much lower in the evergreens compared with Molinia. In a split-root experiment no nutrient resorption from senescing roots was observed. Nutrient concentrations in the litter were equal for all species, except for litter P-concentration of Molinia at the wet site. Both Erica and Calluna had a long mean residence time of both nitrogen and phosphorus and a low nitrogen and phosphorus productivity. The Molinia populations showed a shorter mean residence time of N and P and a higher N- and P-productivity. These patterns resulted in an equal nitrogen use efficiency and an almost equal phosphorus use efficiency for the species under study. However, when only aboveground NUE was considered the Molinia populations had a much higher NUE than the evergreens. The results are consistent with the hypotheses. Thus, the low potential growth rate of species from low-nutrient habitats is probably the consequence of their nutrient conserving strategy rather than a feature on which direct selection takes place in these habitats.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/BF00329765
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  • 4
    Electronic Resource
    Electronic Resource
    Interspecific and intraspecific differences in shoot and leaf lifespan of four Carex species which differ in maximum dry matter production (1995)
    Springer
    Oecologia 102 (1995), S. 467-477 
    Details
    ISSN: 1432-1939
    Keywords: Leaf lifespan ; Nitrogen economy ; Plasticity ; Productivity ; Shoot lifespan
    Source: Springer Online Journal Archives 1860-2000
    Topics: Biology
    Notes: Abstract The effect of N supply on shoot and leaf lifespan was investigated in established stands of four herbaceous Carex species which differed in maximum dry matter production. These species were, in rank order of increasing maximum dry matter production (per unit ground area): Carex diandra≤C. rostrata〈C. lasiocarpa≤C. acutiformis. The observed patterns of shoot and leaf turnover were compared with data on leaf characteristics and nitrogen use efficiency indices of these species. There was no consistent difference in shoot production (number of shoots produced per unit ground area) between species with low production and those with high production: Carex diandra (low production) and C. lasiocarpa (high production) had high shoot production, while shoot production in c. rostrata (low production) and C. acutiformis (high production) was much lower. The rank order of the mean lifespan of shoots was: C. diandra〈C. rostrata≤C. lasiocarpa〈C. acutiformis. Thus, the lifespan of shoots increased with increasing maximum dry matter production of these Carex species. In all species, increased N supply led to a significant reduction in shoot lifespan. The reduction of shoot lifespans in response to enhanced N supply will result in increased nutrient turnover rates in these species. There was no consistent difference in the number of leaves produced per shoot between low-production and high-production species. C. diandra and C. lasiocarpa had relatively low leaf production, while C. rostrata and C. acutiformis had relatively high leaf production per shoot. Thus, this pattern is opposite to the pattern in shoot production. The rank order of the mean lifespan of leaves was: C. diandra〈C. rostrata〈C. acutiformis≤C. lasiocarpa. This implies that the high-production species had longer mean leaf lifespans than the low-production species. Mean leaf lifespan was not significantly affected by enhanced N supply, except in C. diandra, where leaf lifespan decreased in response to enhanced N supply. Shoot lifespans did not show any significant relation with the specific leaf area (SLA, leaf area per unit leaf mass) or the leaf area ratio (LAR, leaf area per unit plant mass) of the species under study. There was, however, a negative relation (r 2=0.71) with the nitrogen concentration in the leaves. Shoot lifespans were positively related (r 2=0.79) with whole-plant nitrogen use efficiency (NUE, dry matter production per unit N-loss) and with the mean residence time of nitrogen (MRT, the average time-span during which a unit of nitrogen is present in the plant) (r 2=0.78), but not with the nitrogen productivity (A, annual dry matter production per unit N in the plant). Leaf lifespan was positively related with the mean residence time of nitrogen in the plants (r 2−0.70). For all the other parameters, there were no significant relations with leaf lifespan. From these results we conclude that: (1) at the stand level, shoot and leaf lifespans are positively related with maximum dry matter production; and (2) shoot and leaf lifespan are important determinants of whole-plant nitrogen economy.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/BF00341359
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  • 5
    Electronic Resource
    Electronic Resource
    The effect of increased nutrient availability on vegetation dynamics in wet heathlands (1988)
    Springer
    Plant ecology 76 (1988), S. 63-69 
    Details
    ISSN: 1573-5052
    Keywords: Competition ; Erica tetralix ; Molinia caerulea ; Nutrient availability ; Species composition
    Source: Springer Online Journal Archives 1860-2000
    Topics: Biology
    Notes: Abstract A three year fertilization experiment was conducted in which nitrogen (N series: 20 g N m−2 yr−1), phosphorus (P series: 4 g P m−2 yr−1) and potassium (K series: 20 g K m−2 yr−1) were added to a mixed vegetation of Erica tetralix and Molinia caerulea. At the end of each growing season the percentage cover of each species was determined. At the end of the experiment percentage cover of each species was found to be positively correlated with the harvested biomass. In the unfertilized control series the cover of Erica and Molinia did not change significantly during the experiment. In all fertilized series however, especially in the P series, cover of Erica decreased significantly. The cover of Molinia increased significantly in the P series only. In the fertilized series the biomass of Erica and total biomass per plot did not change significantly compared with the control series. In the P series the biomass of Molinia increased significantly. It is suggested that with increasing phosphorus or nitrogen availability Molinia outcompetes Erica because the former invests more biomass in leaves which in turn permits more carbon to be allocated to the root system, which thereupon leads to a higher nutrient uptake.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/BF00047389
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  • 6
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    (Appendix S2 Table 1) Species richness of lichen, bryophytes and vascular plants around Abisko, Sweden and Toolik lake, Alaska
    PANGAEA
    Details
    Publication Date: 2023-05-12
    Keywords: Alaska, USA; Alaska-Toolik; Area/locality; Biological sample; BIOS; DATE/TIME; Event label; Latnja-Abisko; Species richness; Sweden
    Type: Dataset
    Format: text/tab-separated-values, 14 data points
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  • 7
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    (Appendix S2 Table 1) Species list of lichen, bryophytes and vascular plants around Abisko, Sweden and Toolik lake, Alaska (2012)
    PANGAEA
    Details
    Publication Date: 2023-11-01
    Keywords: Alaska, USA; Alaska-Toolik; Alectoria nigricans; Alectoria ochroleuca; Anastrophyllum minutum; Andromeda polifolia; Arctostaphylos alpinus; Area/locality; Aulacomnium acuminatum; Aulacomnium turgidum; Betula nana; Biological sample; BIOS; Blepharostoma trichophyllum; Bryocaulon divergens; Calamagrostis lapponica; Calamagrostis sp.; Calliergon stramineum; Calypogeia sphagnicola; Carex bigelowii; Carex sp.; Cassiope hypnoides; Cassiope tetragona; Ceratodon purpureus; Cetraria aculeata; Cetraria ericetorum; Cetraria islandica; Cetraria nigricans; Cetrariella delisei; Cladonia amaurocraea; Cladonia arbuscula; Cladonia bellidiflora; Cladonia cf. fimbriata; Cladonia cf. macroceras; Cladonia cf. pyxidata; Cladonia coccifera; Cladonia ecmocyna; Cladonia furcata; Cladonia gracilis; Cladonia rangiferina; Cladonia sp.; Cladonia stygia; Cladonia uncialis; Cornus suecica; Dactylina arctica; DATE/TIME; Deschampsia flexuosa; Diapensia lapponica; Dicranum acutifolium; Dicranum elongatum; Dicranum flexicaule; Dicranum fuscescens; Dicranum laevidens; Dicranum leioneuron; Dicranum majus; Dicranum scoparium; Dicranum undulatum; Empetrum hermaphroditum; Equisetum arvense; Equisetum sylvaticum; Equisetum variegatum; Eriophorum vaginatum; Event label; Festuca ovina; Flavocetraria cucullata; Flavocetraria nivalis; Gymnomitrion concinnatum; Gymnomitrion corallioides; Hylocomium splendens; Latnja-Abisko; Lecanora polytropa; Lecidea sp.; Ledum palustre; Linnaea borealis; Lobaria linita; Lophozia atlantica; Lophozia binsteadii; Lophozia hatcheri; Lophozia incisa; Lophozia kunzeana; Lophozia lycopodioides; Lophozia polaris; Lophozia ventricosa; Lophozia wenzelii; Luzula arcuata; Nephroma arcticum; Ochrolechia frigida; Pedicularis labradorica; Peltigera aphthosa; Peltigera canina; Peltigera malacea; Peltigera polydactylon group; Peltigera scabrosa; Pertusaria dactylina; Pertusaria oculata; Petasites frigidus; Phyllodoce caerulea; Pleurozium schreberi; Pohlia nutans; Polygonum viviparum; Polytrichastrum alpinum var. alpinum; Polytrichum commune; Polytrichum hyperboreum; Polytrichum juniperinum; Polytrichum piliferum; Polytrichum strictum; Porpidia flavocaerulescens; Porpidia macrocarpa; Porpidia melinodes; Pseudephebe pubescens; Psoroma hypnorum; Ptilidium ciliare; Ptilium crista-castrensis; Pyrenopsis furfurea; Racomitrium lanuginosum; Rhizocarpon geographicum; Rhizocarpon intermediellum; Rhytidium rugosum; Rubus chamaemorus; Salix herbacea; Salix pulchra; Sanionia uncinata; Scapania scandica; Solorina crocea; Sphaerophorus globosus; Sphagnum angustifolium; Sphagnum balticum; Sphagnum girgensohnii; Sphagnum russowii; Sphagnum warnstorfii; Stereocaulon alpinum; Stereocaulon botryosum; Stereocaulon paschale; Sweden; Thamnolia vermicularis; Tomentypnum nitens; Tritomaria quinquedentata; Umbilicaria proboscidea; Vaccinium myrtillus; Vaccinium uliginosum; Vaccinium vitis-idaea; Vulpicida pinastri
    Type: Dataset
    Format: text/tab-separated-values, 270 data points
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  • 8
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    (Table 3) Collembola species density and diversity in control and OTC plots near Abisco Research Station (2011)
    PANGAEA
    In:  Supplement to: Makkonen, Marika; Berg, Matty P; van Hal, Jurgen R; Callaghan, Terry V; Press, Malcolm C; Aerts, Rien (2011): Traits explain the responses of a sub-arctic Collembola community to climate manipulation. Soil Biology and Biochemistry, 43(2), 377-384, https://doi.org/10.1016/j.soilbio.2010.11.004
    Details
    Publication Date: 2023-12-13
    Description: Ecosystems at high northern latitudes are subject to strong climate change. Soil processes, such as carbon and nutrient cycles, which determine the functioning of these ecosystems, are controlled by soil fauna. Thus assessing the responses of soil fauna communities to environmental change will improve the predictability of the climate change impacts on ecosystem functioning. For this purpose, trait assessment is a promising method compared to the traditional taxonomic approach, but it has not been applied earlier. In this study the response of a sub-arctic soil Collembola community to long-term (16 years) climate manipulation by open top chambers was assessed. The drought-susceptible Collembola community responded strongly to the climate manipulation, which substantially reduced soil moisture and slightly increased soil temperature. The total density of Collembola decreased by 51% and the average number of species was reduced from 14 to 12. Although community assessment showed species-specific responses, taxonomically based community indices, species diversity and evenness, were not affected. However, morphological and ecological trait assessments were more sensitive in revealing community responses. Drought-tolerant, larger-sized, epiedaphic species survived better under the climate manipulation than their counterparts, the meso-hydrophilic, smaller-sized and euedaphic species. Moreover it also explained the significant responses shown by four taxa. This study shows that trait analysis can both reveal responses in a soil fauna community to climate change and improve the understanding of the mechanisms behind them.
    Keywords: Abisko_ANS; Abisko, Lappland, northern Sweden; Abisko Scientific Research Station; Arrhopalites principalis; Collembola; DATE/TIME; Desoria hiemalis; Dicyrtoma fusca; Entomobrya marginata; Entomobrya nivalis; Evenness of species; Folsomia quadrioculata; Folsomia sensibilis; International Polar Year (2007-2008); IPY; Isotomiella minor; Lepidocyrtus lignorum; Megalothorax minimus; Mesaphorura macrochaeta; Micranurida forsslundi; Micranurida pygmaea; Neanura muscorum; Open-top chamber (OTC) warming experiment, in situ; Parisotoma notabilis; Protaphorura pseudovanderdrifti; Pseudachorutes corticicolus; Pseudanurophorus binoculatus; Pseudosinella alba; Shannon Diversity Index; Sminthurus nigromaculatus; Species richness; Standard deviation; Standard error; Treatment; Willemia anophthalma; Willemia denisi
    Type: Dataset
    Format: text/tab-separated-values, 106 data points
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  • 9
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    Species occurrence and richness of lichen, bryophytes and vascular plants near Abisko, Sweden and Toolik lake, Alaska (2012)
    PANGAEA
    In:  Supplement to: Lang, Simone I; Cornelissen, Johannes H C; Shaver, Gauis R; Ahrens, Matthias; Callaghan, Terry V; Molau, Ulf; ter Braak, Cajo J F; Hölzer, Adam; Aerts, Rien (2012): Arctic warming on two continents has consistent negative effects on lichen diversity and mixed effects on bryophyte diversity. Global Change Biology, 18(3), 1096-1107, https://doi.org/10.1111/j.1365-2486.2011.02570.x
    Details
    Publication Date: 2023-12-13
    Description: Little is known about the impact of changing temperature regimes on composition and diversity of cryptogam communities in the Arctic and Subarctic, despite the well-known importance of lichens and bryophytes to the functioning and climate feedbacks of northern ecosystems. We investigated changes in diversity and abundance of lichens and bryophytes within long-term (9-16 years) warming experiments and along natural climatic gradients, ranging from Swedish subarctic birch forest and subarctic/subalpine tundra to Alaskan arctic tussock tundra. In both Sweden and Alaska, lichen diversity responded negatively to experimental warming (with the exception of a birch forest) and to higher temperatures along climatic gradients. Bryophytes were less sensitive to experimental warming than lichens, but depending on the length of the gradient, bryophyte diversity decreased both with increasing temperatures and at extremely low temperatures. Among bryophytes, Sphagnum mosses were particularly resistant to experimental warming in terms of both abundance and diversity. Temperature, on both continents, was the main driver of species composition within experiments and along gradients, with the exception of the Swedish subarctic birch forest where amount of litter constituted the best explanatory variable. In a warming experiment in moist acidic tussock tundra in Alaska, temperature together with soil ammonium availability were the most important factors influencing species composition. Overall, dwarf shrub abundance (deciduous and evergreen) was positively related to warming but so were the bryophytes Sphagnum girgensohnii, Hylocomium splendens and Pleurozium schreberi; the majority of other cryptogams showed a negative relationship to warming. This unique combination of intercontinental comparison, natural gradient studies and experimental studies shows that cryptogam diversity and abundance, especially within lichens, is likely to decrease under arctic climate warming. Given the many ecosystem processes affected by cryptogams in high latitudes (e.g. carbon sequestration, N2-fixation, trophic interactions), these changes will have important feedback consequences for ecosystem functions and climate.
    Keywords: International Polar Year (2007-2008); IPY
    Type: Dataset
    Format: application/zip, 2 datasets
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  • 10
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    Ecosystem feedbacks and cascade processes : understanding their role in the responses of Arctic and alpine ecosystems to environmental change (2009)
    Details
    Publication Date: 2022-05-25
    Description: Author Posting. © The Authors, 2009. This is the author's version of the work. It is posted here by permission of John Wiley & Sons for personal use, not for redistribution. The definitive version was published in Global Change Biology 15 (2009): 1153-1172, doi:10.1111/j.1365-2486.2008.01801.x.
    Description: Global environmental change, related to climate change and the deposition of airborne N-containing contaminants, has already resulted in shifts in plant community composition among plant functional types in arctic and temperate alpine regions. In this paper, we review how key ecosystem processes will be altered by these transformations, the complex biological cascades and feedbacks that may result, and some of the potential broader consequences for the earth system. Firstly, we consider how patterns of growth and allocation, and nutrient uptake, will be altered by the shifts in plant dominance. The ways in which these changes may disproportionately affect the consumer communities, and rates of decomposition, are then discussed. We show that the occurrence of a broad spectrum of plant growth forms in these regions (from cryptogams to deciduous and evergreen dwarf shrubs, graminoids and forbs), together with hypothesized low functional redundancy, will mean that shifts in plant dominance result in a complex series of biotic cascades, couplings and feedbacks which are supplemental to the direct responses of ecosystem components to the primary global change drivers. The nature of these complex interactions is highlighted using the example of the climate-driven increase in shrub cover in low arctic tundra, and the contrasting transformations in plant functional composition in mid-latitude alpine systems. Finally, the potential effects of the transformations on ecosystem properties and processes which link with the earth system are reviewed. We conclude that the effects of global change on these ecosystems, and potential climate-change feedbacks, can not be predicted from simple empirical relationships between processes and driving variables. Rather, the effects of changes in species distributions and dominances on key ecosystem processes and properties must also be considered, based upon best estimates of the trajectories of key transformations, their magnitude and rates of change.
    Description: We thank the International Arctic Science Committee (IASC) for their support for this Mini- Review as part of the IASC Circum-Arctic Terrestrial Biodiversity initiative (CAT-B) and as part of International Polar Year 2007/2008.
    Keywords: Arctic ; Alpine ; Carbon ; Ecosystem ; Energy ; Global change ; Feedback ; Nitrogen ; Herbivory ; Plant functional type
    Repository Name: Woods Hole Open Access Server
    Type: Preprint
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