@article{BlumroederHoffmannIlinaetal.2020, author = {Blumr{\"o}der, Jeanette Silvin and Hoffmann, Monika T. and Ilina, Olga and Winter, Susanne and Hobson, Peter R. and Ibisch, Pierre L.}, title = {Clearcuts and related secondary dieback undermine the ecological effectiveness of FSC certification in a boreal forest}, series = {Ecological Process}, journal = {Ecological Process}, number = {9}, publisher = {SpringerOpen}, issn = {2192-1709}, doi = {10.1186/s13717-020-0214-4}, url = {http://nbn-resolving.de/urn:nbn:de:kobv:eb1-opus-2414}, pages = {9}, year = {2020}, abstract = {Background: Over the last 25 years, the prominent forest certification system established by the Forest Stewardship Council (FSC) has used by many companies worldwide for claiming responsible forest management. The objectives of the Russian National FSC standard to decrease the size of clearcuts and the retention of forest elements such as residual seed trees need on-site validation to proof the effectiveness of FSC. To assess the ecological impacts of harvesting practices and benefits of FSC certification, we geospatially compared logging activities with and without FSC certification. Within a sample area covering approximately 3,000 km 2 in the east of the Russian Arkhangelsk Region, we used available data on tree cover loss and satellite images to assess secondary impacts of clearcuttings on adjacent remnant forests and to quantify the logging intensity. Additionally, the size and structure as well as the density of skidding trails of ten specific clearcuttings located within the sample area were surveyed using satellite images and in the field observation to delineate the boundaries of clearcuts and forested remnants within the clearcuts. Results: We found a significant increase of small-scale tree cover loss in the proximity of the clearcuts. Patchy dieback is possibly linked to the scale and intensity of logging in the surroundings. On the investigated clearcuts, FSC failed to reduce the size, to increase the retention of forest remnants including seed trees on logged areas, and to maintain larger tracts of undisturbed ground and soil compared to clearcuts that were logged before they received FSC-certification. Conclusions: Trees and forest remnants remaining inside an increasingly stressed forest ecosystem matrix may not resist further harvesting-related and climate change-induced stresses and disturbances. Large-scale clearcuttings seem to have negative impacts even in adjacent forests and undermine the ecological effectiveness of FSC certification in the study area. The Russian FSC standard is not clearly setting effective guidelines that induce a change in clearcutting practices in order to reduce ecological risks.}, language = {en} } @article{BlumroederMayHaerdtleetal.2021, author = {Blumr{\"o}der, Jeanette Silvin and May, Felix and H{\"a}rdtle, Werner and Ibisch, Pierre L.}, title = {Forestry contributed to warming of forest ecosystems in northern Germany during the extreme summers of 2018 and 2019}, series = {Ecological Solutions and Evidence}, volume = {2}, journal = {Ecological Solutions and Evidence}, number = {3}, publisher = {Wiley}, issn = {2688-8319}, doi = {10.1002/2688-8319.12087}, url = {http://nbn-resolving.de/urn:nbn:de:kobv:eb1-opus-1992}, pages = {14}, year = {2021}, abstract = {1. Forest management influences a variety of ecosystem structures and processes relevant to meso- and microclimatic regulation, but little research has been done on how forest management can mitigate the negative effects of climate change on forest ecosystems. 2. We studied the temperature regulation capacity during the two Central European extreme summers in 2018 and 2019 in Scots pine plantations and European beech forests with different management-related structural characteristics. 3. We found that the maximum temperature was higher when more trees were cut and canopy was more open. Logging 100 trees per hectare increased maximum temperature by 0.21-0.34 K at ground level and by 0.09-0.17 K in 1.3 m above ground. Opening the forest canopy by 10\% significantly increased Tmax, measured 1.3 m above ground by 0.46 K (including pine and beech stands) and 0.35 K (only pine stands). At ground level, Tmax increased by 0.53 K for the model including pine and beech stands and by 0.41 K in pure pine stands. Relative temperature cooling capacity decreased with increasing wood harvest activities, with below average values in 2018 (and 2019) when more than 656 (and 867) trees per hectare were felled. In the pine forests studied, the relative temperature buffering capacity 1.3 m above ground was lower than average values for all sample plots when canopy cover was below 82\%. In both study years, mean maximum temperature measured at ground level and in 1.3 m was highest in a pine-dominated sample plots with relatively low stand volume (177 m3 ha-1) and 9 K lower in a sample plot with relatively high stock volumes of Fagus sylvatica (>565 m3 ha-1). During the hottest day in 2019, the difference in temperature peaks was more than 13 K for pine-dominated sample plots with relatively dense (72\%) and low (46\%) canopy cover. 4. Structural forest characteristics influenced by forest management significantly affect microclimatic conditions and therefore ecosystem vulnerability to climate change. We advocate keeping the canopy as dense as possible (at least 80\%) by maintaining sufficient overgrowth and by supporting deciduous trees that provide effective shade.}, language = {en} } @article{BlumroederIbisch2023, author = {Blumr{\"o}der, Jeanette Silvin and Ibisch, Pierre L.}, title = {Wald- und Forstbr{\"a}nde im Klimawandel}, series = {Gegraphische Rundschau}, journal = {Gegraphische Rundschau}, number = {11}, publisher = {Westermann Bildungsmedien Verlag GmbH}, issn = {0016-7460}, url = {http://nbn-resolving.de/urn:nbn:de:kobv:eb1-opus-8205}, pages = {5}, year = {2023}, abstract = {Regelm{\"a}ßige Landschaftsbr{\"a}nde sind ein wesentlicher Bestandteil vieler {\"O}kosysteme wie Savannen oder Trockenw{\"a}ldern. In vielen Regionen der Welt sind die Br{\"a}nde gr{\"o}ßer und h{\"a}ufiger geworden. Br{\"a}nde in den W{\"a}ldern der Gebiete mit gem{\"a}ßigtem Klima wie Deutschland sind eigentlich nicht {\"o}kosystemtypisch. Aktuell nehmen allerdings die H{\"a}ufigkeit und Anzahl sowie die Gr{\"o}ße von Waldbr{\"a}nden zu, ohne dass Gesellschaft und Politik darauf angemessen vorbereitet sind.}, language = {de} } @article{BlumroederSchmidtGordonetal.2022, author = {Blumr{\"o}der, Jeanette Silvin and Schmidt, Frederic and Gordon, Anat and Grosse, Stefanie and Ibisch, Pierre L.}, title = {Ecosystemic resilience of a temperate post-fire forest under extreme weather conditions}, series = {Frontiers in Forests and Global Change}, volume = {5}, journal = {Frontiers in Forests and Global Change}, number = {5}, publisher = {Frontiers Media S.A.}, issn = {2624-893X}, doi = {10.3389/ffgc.2022.1070958}, url = {http://nbn-resolving.de/urn:nbn:de:kobv:eb1-opus-3825}, pages = {1 -- 16}, year = {2022}, abstract = {Introduction The effects of climate change are exacerbating the fire risk in forests worldwide. Conifer plantations in particular are especially vulnerable to fire outbreaks. At the end of the extraordinarily hot and dry summer of 2018, a forest pine plantation burned in Brandenburg, NE Germany. Different forestry interventions were carried out after the fire, while one area of the damaged plantation remained untouched. Methods We investigated the resilience of the forest ecosystem and the effectiveness of different active and passive forest restoration measures during the subsequent relatively warm and dry years 2019-2021. Results One year after the fire, Populus tremula showed strong spontaneous colonization at all sites. In contrast, the majority of planted Pinus sylvestris plantlets died on the plots that had been salvage-logged after the fire. Three years after the fire, Populus tremula successfully established itself as the dominant tree species on all plots, with the highest abundance on the plot where the overstorey of the dead pines was left. Betula pendula, Salix caprea, and Pinus sylvestris showed lower abundance, with their proportion increasing with decreasing cover by dead trees. The distribution of regrowing trees is very heterogeneous across the different treatments and plots. In the clear-cut plots, the extreme microclimatic conditions expose the young trees to additional heat and drought, while the retention of deadwood measurably buffers the temperature and water stress. Discussion The resilience and adaptability of naturally regenerating forests that develop into ecosystems that are more diverse seem more promising than restoration through intervention. Apart from hampering restoration under extreme weather conditions, post-fire salvage logging contributes to soil degradation and loss of organic carbon.}, language = {en} } @article{MannGohrBlumroederetal.2023, author = {Mann, Deepika and Gohr, Charlotte and Blumr{\"o}der, Jeanette Silvin and Ibisch, Pierre L.}, title = {Does fragmentation contribute to the forest crisis in Germany?}, series = {Frontiers in Forests and Global Change}, volume = {6}, journal = {Frontiers in Forests and Global Change}, publisher = {Frontiers Media S.A.}, issn = {2624-893X}, doi = {10.3389/ffgc.2023.1099460}, url = {http://nbn-resolving.de/urn:nbn:de:kobv:eb1-opus-3909}, pages = {12}, year = {2023}, abstract = {Intact forests contribute to the ecosystem functionality of landscapes by storing and sequestering carbon, buffering and cooling the microclimate, and providing a range of related ecosystem functions. Forest fragmentation not only poses a threat to many organisms but also reduces the resistance and resilience of the ecosystem, which is especially relevant to the ongoing climate crisis. The effects of recent extreme heat years on forests in Germany have not been studied in detail for the influence of fragmentation. We investigate the relation of forest fragmentation with temperature and vitality in Germany per ecoregion at the canopy level using satellite imagery at 1-km and 30-m resolution. We compiled and correlated forest maps for connectivity based on Thiessen polygons, canopy temperatures on the hottest days based on land surface temperature, and forest vitality based on the maximum normalized difference vegetation index per growing season. We differentiated between ecoregions and main forest types. In 2022, larger intact tree-covered areas that are less fragmented have relatively low temperatures on hot days and higher overall vitality. Nearly 98\% of the almost 1.95 million forest fragments at 30-m resolution in Germany are smaller than 1 km2, which cover nearly 30\% of the total forest area. To counteract the forest crisis, forest and landscape management should aim to reduce fragmentation and maintain tree biomass and forest cover in the landscape. Increasing the size of continuous forest fragments contributes to ecosystem-based adaptation to climate change.}, language = {en} } @misc{WelleIbischBlumroederetal.2021, author = {Welle, Torsten and Ibisch, Pierre L. and Blumr{\"o}der, Jeanette Silvin and Bohr, Yvonne E.-M. B. and Leinen, Loretta and Wohlleben, Tobias and Sturm, Knut}, title = {Incorrect data sustain the claim of forest-based bioenergy being more effective in climate change mitigation than forest conservation}, series = {GCB Bioenergy}, volume = {13}, journal = {GCB Bioenergy}, number = {2}, publisher = {Wiley}, issn = {1757-1707}, doi = {10.1111/gcbb.12738}, url = {http://nbn-resolving.de/urn:nbn:de:kobv:eb1-opus-6092}, pages = {286 -- 287}, year = {2021}, language = {en} } @misc{WelleIbischBlumroederetal.2021, author = {Welle, Tobias and Ibisch, Pierre L. and Blumr{\"o}der, Jeanette Silvin and Bohr, Yvonne E.-M. B. and Leinen, Loretta and Wohlleben, Tobias and Sturm, Knut}, title = {Accurate use of forest inventories shows that unmanaged forests have a higher climate protection effect than managed forests: A response to the letter by Bolte et al.}, series = {GCB Bioenergy}, volume = {13}, journal = {GCB Bioenergy}, number = {3}, publisher = {Wiley}, issn = {1757-1707}, doi = {10.1111/gcbb.12796}, url = {http://nbn-resolving.de/urn:nbn:de:kobv:eb1-opus-6079}, pages = {367 -- 368}, year = {2021}, language = {en} } @article{GohrBlumroederSheiletal.2021, author = {Gohr, Charlotte and Blumr{\"o}der, Jeanette Silvin and Sheil, Douglas and Ibisch, Pierre L.}, title = {Quantifying the mitigation of temperature extremes by forests and wetlands in a temperate landscape}, series = {Ecological Informatics}, journal = {Ecological Informatics}, number = {66}, publisher = {Elsevier}, issn = {1574-9541}, doi = {10.1016/j.ecoinf.2021.101442}, url = {http://nbn-resolving.de/urn:nbn:de:kobv:eb1-opus-4376}, year = {2021}, abstract = {As a result of ongoing climate change and more frequent heat events, the regulating services of land cover in terms of moderating and mitigating local temperatures are increasingly important. While the reduced temperatures found in forests and wetlands are recognized, their wider contribution to regional landscape cooling remains largely uncharacterized and unquantified. Herein, we propose and test a new method that estimates the temperature response and inertia of landscapes in high temperatures, based on land cover share. In order to achieve this goal, we combined the MODIS daytime land surface temperature (henceforth LST) time series and CORINE land cover data. We classified the time series in two ways, i.e. by stepwise temperature range (-10/-5 °C to +35/+40 °C) and by the occurrence of hot days (days with a mean LST ≥ 30 °C). As an explanatory variable, we developed and used a greenest pixel composite of the MODIS normalized difference vegetation index (NDVI) time series. In our study area, covering parts of northeastern Germany and western Poland, the fragmented landscape has heterogeneous temperature patterns, including urban heat islands, warm agricultural areas, cool forests and cold wetlands. We found that at high temperature ranges only forests and wetlands remained comparably cool, with LSTs up to 20.8 °C lower than the maximum LST in the study area. The analysis of land cover shares and LSTs revealed the substantial cooling effect of forests and wetlands in line with increasing land cover share in higher temperature ranges, as well as on hot days. The relation between LST and the NDVI indicated vegetation cover as the cause. We propose the corresponding metrics to quantify landscape-level temperature regulation. Equally, we advocate for management to identify these ecosystem services and their current and potential contributions, along with implications for sustaining and increasing, both tree cover and wetlands and thereby adapting landscapes to climate change.}, language = {en} } @incollection{IbischBlumroeder2021, author = {Ibisch, Pierre L. and Blumr{\"o}der, Jeanette Silvin}, title = {Waldwende in der Wald- und Klimakrise? - Warum viele Forstakteure das {\"O}kosystem vor lauter B{\"a}umen nicht sehen (wollen)}, series = {Der kritische Agrarbericht 2021}, booktitle = {Der kritische Agrarbericht 2021}, publisher = {ABL Bauernblatt Verlags-GmbH}, isbn = {978-3-930413-69-0}, url = {http://nbn-resolving.de/urn:nbn:de:kobv:eb1-opus-6252}, publisher = {Hochschule f{\"u}r nachhaltige Entwicklung Eberswalde}, pages = {236 -- 240}, year = {2021}, abstract = {Dem Wald in Deutschland geht es schlecht. Seit 2018 machen außergew{\"o}hnliche W{\"a}rme und Trockenheit vielen B{\"a}umen zu schaffen. Von einem »Waldsterben 2.0« ist die Rede. Die Interpretationen der Genese der aktuellen Waldkrise sowie die strategischen Ideen zu ihrer Bek{\"a}mpfung gehen zwar weit auseinander - aber die Einsch{\"a}tzung, dass die aktuelle Verkettung von extremen Witterungen und die entsprechenden Konsequenzen in den W{\"a}ldern eine Z{\"a}sur darstellt, ist weitgehend Konsens. Die zentrale Frage ist, ob die Krise Anlass zu einer tiefgreifenden Reflektion {\"u}ber das vorherrschende Management der Wald{\"o}kosysteme und eine entsprechende »Waldwende« gibt oder ob die aktuellen Reaktionen von Politik und Forstwirtschaft sogar zur Versch{\"a}rfung der Situation beigetragen.}, language = {de} }