Wolfgang Schmidt scite author profile

Abstract:Conservation Biology 41In an attempt to provide a state of the art of the effect of forest management on biodiversity, 42we performed a MA comparing the species richness of managed and unmanaged forests in 47Our MA provides basic ecological knowledge needed for conservation and ecologically 48 sustainable forestry. In this paper, we showed that forest management has a negative effect 49 on the biodiversity of forest dwelling species. Because we were aware of the limitations of 50 our MA, we used caution when discussing the results considering that: (i) the effect is 51 strongly heterogeneous between different taxa; (ii) there is a trend for recovery of biodiversity 52 once management has been abandoned; (iii) no strong conclusion on the effect of different 53 management types could be drawn from our data due to low replication number. The obvious 54 main conclusion of this paper was that research on the subject in Europe was scarce and 55 that more controlled studies may help answer the questions raised. 113always provided negative slopes, except for bryophytes and birds (see Table 3, p. 107). 114Finally, even if the effect of TSA was significant only for carabids, saproxylic beetles and 115 fungi, most of the negative slopes for taxa have much higher value than the slope for all 160(2002): this paper compares old growth with 15 years-old stands, which were not considered 161 as "young regeneration phases" nor "clearfelling stands" in our protocol. We assume that our 162 selection protocol was restrictive enough regarding the number of studies finally included in 163 our MA; if we had been more restrictive in our inclusion criteria (i.e. excluding young stands), 164we would have rejected this paper. 166 Conclusions 167The paper we published does not aim at influencing European forest and conservation 168 policies in any way, but to provide decision-making tools based on scientific facts. Both 169 managed and unmanaged forests are needed to preserve European forest biodiversity, but 170 since there are many managed forests and very few old-growth ones, a special effort should 171 be allocated to create protected reserves, as suggested by Paillet et al. (2010).

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Forest microclimate dynamics drive plant responses to warming

Zellweger

Frenne

Lenoir

et al. 2020

Science

489

442

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Climate warming is causing a shift in biological communities in favor of warm-affinity species (i.e., thermophilization). Species responses often lag behind climate warming, but the reasons for such lags remain largely unknown. Here, we analyzed multidecadal understory microclimate dynamics in European forests and show that thermophilization and the climatic lag in forest plant communities are primarily controlled by microclimate. Increasing tree canopy cover reduces warming rates inside forests, but loss of canopy cover leads to increased local heat that exacerbates the disequilibrium between community responses and climate change. Reciprocal effects between plants and microclimates are key to understanding the response of forest biodiversity and functioning to climate and land-use changes.

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Method for quantitative estimation of thermal thresholds in patients.

Fruhstorfer¹,

Lindblom²,

Schmidt³

1976

Journal of Neurology, Neurosurgery & Psychiatry

718

369

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SYNOPSIS A quantitative method for the examination ofthermal sensibility was applied in 26 normal subjects and in patients with various neurological disorders. The stimulation technique resembled Bekesy audiometry: the patient reversed the direction of the temperature change of a thermode whenever warm, cold, or thermal pain thresholds were reached. The resulting temperature curve enables a quantitative description of the subject's thermal sensibility and of the degree of impairment displayed by neurological patients.It is well known that a disturbance of the temperature sense occurs in many neurological patients as a consequence of lesions in the peripheral or central nervous system. It usually occurs together with a disturbance of other sensory modalities such as cutaneous pain, but it may also appear separately (Goldscheider, 1926).For a closer study of changes in thermal sensibility, a quantitative technique is necessary which allows reliable measurement of warm, cold, and thermal pain thresholds by pure thermal stimuli without tactile components. The method should be easy and quick enough to be combined with routine neurological examination. Although in neurophysiological and psychophysical research several methods have been developed for the study of temperature sensibility (for references cf Kenshalo, 1970), all of them are too complicated and time consuming to be applied FIG. 1 The Marstock stimulator. A thermocouple is clinically. The technique described here has proved to fixed to the centre of the stimulating surface (area be easy enough to be used routinely and repeatedly in 25 x 50 mm). patients in whom it was desirable to establish the degree or the temporal course of a neurological disorder affecting thermosensibility.tions which produce a temperature difference between METHODS upper and lower side of the stimulator when a current STIMULATOR is passed through them. As the reverse side of the stimulator is thermally buffered by a metal block perThe thermostimulator has a rectangular stimulating fused with water of 30°C temperature, the stimulating surface of 25 x 50 mm (Fig. 1), and it operates on the surface can be either warmed or cooled depending on Peltier principle. It consists of semiconductor junc-the direction of the current. The temperature is

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Synchrony matters more than species richness in plant community stability at a global scale

Valencia

Bello

Galland

et al. 2020

Proc. Natl. Acad. Sci. U.S.A.

156

162

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The stability of ecological communities is critical for the stable provisioning of ecosystem services, such as food and forage production, carbon sequestration, and soil fertility. Greater biodiversity is expected to enhance stability across years by decreasing synchrony among species, but the drivers of stability in nature remain poorly resolved. Our analysis of time series from 79 datasets across the world showed that stability was associated more strongly with the degree of synchrony among dominant species than with species richness. The relatively weak influence of species richness is consistent with theory predicting that the effect of richness on stability weakens when synchrony is higher than expected under random fluctuations, which was the case in most communities. Land management, nutrient addition, and climate change treatments had relatively weak and varying effects on stability, modifying how species richness, synchrony, and stability interact. Our results demonstrate the prevalence of biotic drivers on ecosystem stability, with the potential for environmental drivers to alter the intricate relationship among richness, synchrony, and stability.

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Drivers of temporal changes in temperate forest plant diversity vary across spatial scales

Bernhardt‐Römermann

Baeten

Craven

et al. 2015

Global Change Biology

135

150

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Global biodiversity is affected by numerous environmental drivers. Yet, the extent to which global environmental changes contribute to changes in local diversity is poorly understood. We investigated biodiversity changes in a meta-analysis of 39 resurvey studies in European temperate forests (3988 vegetation records in total, 17-75 years between the two surveys) by assessing the importance of (i) coarse-resolution (i.e., among sites) vs. fine-resolution (i.e., within sites) environmental differences and (ii) changing environmental conditions between surveys. Our results clarify the mechanisms underlying the direction and magnitude of local-scale biodiversity changes. While not detecting any net local diversity loss, we observed considerable among-site variation, partly explained by temporal changes in light availability (a local driver) and density of large herbivores (a regional driver). Furthermore, strong evidence was found that presurvey levels of nitrogen deposition determined subsequent diversity changes. We conclude that models forecasting future biodiversity changes should consider coarse-resolution environmental changes, account for differences in baseline environmental conditions and for local changes in fine-resolution environmental conditions.

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