Soil Bacterial Community Structure Responses to Precipitation Reduction and Forest Management in Forest Ecosystems across Germany

Felsmann, Katja; Baudis, Mathias; Gimbel, Katharina; Kayler, Zachary; Ellerbrock, Ruth H.; Bruehlheide, Helge; Bruckhoff, Johannes; Welk, Erik; Puhlmann, Heike; Weiler, Markus; Geßler, Arthur; Ulrich, Andreas

doi:10.1371/journal.pone.0122539

Cited by 44 publications

(51 citation statements)

References 76 publications

(89 reference statements)

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…We aimed to test if such a relationship could also be observed for the understory of beech dominated forests and conifer replacement stands. We found that understory Shannon diversity was, in fact, lower in the unmanaged beech stands compared to the other two management intensities and significantly higher at the Schwäbische Alb exploratory compared to the other two exploratories (Felsmann et al 2015). Plotting Shannon diversity against the impact of the drought treatment on community transpiration or community Δ 13 C, however, showed that understory diversity had no influence on the strength of the responses to drought (see Fig.…”

Section: 3mentioning

confidence: 73%

“…The study was carried out at the three regions of the Biodiversity Exploratories (http://www.biodiversityexploratories.de; for details, see Fischer et al 2010): Schorfheide-Chorin (S) in the north-east, Hainich Dün (H) in the middle, and Schwäbische Alb (A) in the south-west of Germany as described recently by Felsmann et al (2015). In each of the Exploratories, we selected three forest stands, which represent different forest types, management intensities and comprise different vegetation communities (see table 1 in Gimbel et al 2015), but are similar with respect to topography and soil type within each exploratory (Table 1).…”

Section: Study Site and Experimental Designmentioning

confidence: 99%

“…The necessary climate data were obtained for the period 2010-2013 from near-by stations of the German weather service (DWD). For further details, we refer to Felsmann et al (2015). In addition to the simulated values, volumetric soil water contents (%) as an average of the upper 10 cm of the soil were determined in spring or early summer, and in late summer in 2012 and 2013.…”

Section: Soil Water Contentmentioning

confidence: 99%

“…Species composition (Table S2), LAI, species richness and diversity (Shannon's diversity index) of the understory were determined according to Felsmann et al (2015) during field campaigns in 2012 and 2013 (for dates, see Table S1). Species composition and richness were determined in field surveys.…”

Section: Understory Community Structurementioning

confidence: 99%

See 3 more Smart Citations

Responses of the structure and function of the understory plant communities to precipitation reduction across forest ecosystems in Germany

Felsmann

Baudis

Kayler

et al. 2017

Annals of Forest Science

Self Cite

View full text Add to dashboard Cite

& Key message Understory plant communities are essential for the recruitment of trees making up future forests. Independent of plant diversity, the understory across different forest ecosystems shows considerable physiological acclimation and structural stability towards drought events, which are expected to occur more frequently in future. & Context Understory plant communities are essential for the recruitment of trees making up the future forest. It is so far poorly understood how climate change will affect understory in beech and conifer forests managed at different intensity levels. & Aims We hypothesized that drought would affect transpiration and carbon isotope discrimination but not species richness and diversity. Moreover, we assumed that forest management intensity will modify the responses to drought of the understory community. & Methods We set up roofs in forests with a gradient of management intensities (unmanaged beech-managed beech-intensively managed conifer forests) in three regions across Germany. A drought event close to the 2003 drought was imposed in two consecutive years. & Results After 2 years, the realized precipitation reduction was between 27% and 34%. The averaged water content in the top 20 cm of the soil under the roof was reduced by 2% to 8% compared with the control. In the 1st year, leaf level transpiration was reduced for different functional groups, which scaled to community transpiration modified by additional effects of drought on functional group leaf area. Acclimation effects in most functional groups were observed in the 2nd year. & Conclusion Forest understory shows high plasticity at the leaf and community level, and high structural stability to changing climate conditions with drought events.

show abstract

Section: 3mentioning

confidence: 73%

Section: Study Site and Experimental Designmentioning

confidence: 99%

Section: Soil Water Contentmentioning

confidence: 99%

Section: Understory Community Structurementioning

confidence: 99%

See 2 more Smart Citations

Responses of the structure and function of the understory plant communities to precipitation reduction across forest ecosystems in Germany

Felsmann

Baudis

Kayler

et al. 2017

Annals of Forest Science

Self Cite

View full text Add to dashboard Cite

show abstract

“…In contrast to the abovementioned studies, the drought intensity in our study was rather moderate as we aimed to simulate the conditions in the forest understorey where extreme environmental amplitudes are buffered by the sheltering canopy (Hommel et al 2014;Felsmann et al 2015;Gimbel et al 2015), and thus we kept soil moisture tension close to but above the root water uptake thresholds.…”

Section: The Effect Of Moderate Drought On Allocation Of New Assimilamentioning

confidence: 99%

Impact of interspecific competition and drought on the allocation of new assimilates in trees

et al. 2016

View full text Add to dashboard Cite

In trees, the interplay between reduced carbon assimilation and the inability to transport carbohydrates to the sites of demand under drought might be one of the mechanisms leading to carbon starvation. However, we largely lack knowledge on how drought effects on new assimilate allocation differ between species with different drought sensitivities and how these effects are modified by interspecific competition. We assessed the fate of (13) C labelled assimilates in above- and belowground plant organs and in root/rhizosphere respired CO2 in saplings of drought-tolerant Norway maple (Acer platanoides) and drought-sensitive European beech (Fagus sylvatica) exposed to moderate drought, either in mono- or mixed culture. While drought reduced stomatal conductance and photosynthesis rates in both species, both maintained assimilate transport belowground. Beech even allocated more new assimilate to the roots under moderate drought compared to non-limited water supply conditions, and this pattern was even more pronounced under interspecific competition. Even though maple was a superior competitor compared to beech under non-limited soil water conditions, as indicated by the changes in above- and belowground biomass of both species in the interspecific competition treatments, we can state that beech was still able to efficiently allocate new assimilate belowground under combined drought and interspecific competition. This might be seen as a strategy to maintain root osmotic potential and to prioritise root functioning. Our results thus show that beech tolerates moderate drought stress plus competition without losing its ability to supply belowground tissues. It remains to be explored in future work if this strategy is also valid during long-term drought exposure.

show abstract

Lessons learned from a long‐term irrigation experiment in a dry Scots pine forest: Impacts on traits and functioning

Bose

Rigling

Geßler

et al. 2022

Ecological Monographs

Self Cite

View full text Add to dashboard Cite

Climate change exposes ecosystems to strong and rapid changes in their environmental boundary conditions mainly due to the altered temperature and precipitation patterns. It is still poorly understood how fast interlinked ecosystem processes respond to altered environmental conditions, if these responses occur gradually or suddenly when thresholds are exceeded, and if the patterns of the responses will reach a stable state. We conducted an irrigation experiment in the Pfynwald, Switzerland from 2003-2018. A naturally dry Scots pine (Pinus sylvestris L.) forest was irrigated with amounts that doubled natural precipitation, thus releasing the forest stand from water limitation.The aim of this study was to provide a quantitative understanding on how different traits and functions of individual trees and the whole ecosystem responded to increased water availability, and how the patterns and magnitudes of these responses developed over time. We found that the response magnitude, the temporal trajectory of responses, and the length of initial lag period prior to significant response largely varied across traits. We detected rapid and stronger responses from aboveground tree traits (e.g., tree-ring width, needle length, and crown transparency) compared to belowground tree traits (e.g., fine-root biomass). The altered aboveground traits during the initial years of irrigation increased the water demand and trees adjusted by increasing root biomass during the later years of irrigation, resulting in an increased survival rate of Scots pine trees in irrigated plots. The irrigation also stimulated ecosystem-level foliar decomposition rate, fungal fruit body biomass, and regeneration abundances of broadleaved tree species. However, irrigation did Arun K. Bose and Andreas Rigling contributed equally to this work.

show abstract

Soil Bacterial Community Structure Responses to Precipitation Reduction and Forest Management in Forest Ecosystems across Germany

Cited by 44 publications

References 76 publications

Responses of the structure and function of the understory plant communities to precipitation reduction across forest ecosystems in Germany

Responses of the structure and function of the understory plant communities to precipitation reduction across forest ecosystems in Germany

Impact of interspecific competition and drought on the allocation of new assimilates in trees

Lessons learned from a long‐term irrigation experiment in a dry Scots pine forest: Impacts on traits and functioning

Contact Info

Product

Resources

About