Marcus Lindner scite author profile

Global change will alter the supply of ecosystem services that are vital for human well-being. To investigate ecosystem service supply during the 21st century, we used a range of ecosystem models and scenarios of climate and land-use change to conduct a Europe-wide assessment. Large changes in climate and land use typically resulted in large changes in ecosystem service supply. Some of these trends may be positive (for example, increases in forest area and productivity) or offer opportunities (for example, "surplus land" for agricultural extensification and bioenergy production). However, many changes increase vulnerability as a result of a decreasing supply of ecosystem services (for example, declining soil fertility, declining water availability, increasing risk of forest fires), especially in the Mediterranean and mountain regions.

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How strongly can forest management influence soil carbon sequestration?

Jandl

Lindner

Vesterdal³

et al. 2007

Geoderma

1,130

681

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Climate change and European forests: What do we know, what are the uncertainties, and what are the implications for forest management?

Lindner

Fitzgerald

Zimmermann

et al. 2014

Journal of Environmental Management

481

328

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The knowledge about potential climate change impacts on forests is continuously expanding and some changes in growth, drought induced mortality and species distribution have been observed. However despite a significant body of research, a knowledge and communication gap exists between scientists and non-scientists as to how climate change impact scenarios can be interpreted and what they imply for European forests. It is still challenging to advise forest decision makers on how best to plan for climate change as many uncertainties and unknowns remain and it is difficult to communicate these to practitioners and other decision makers while retaining emphasis on the importance of planning for adaptation. In this paper, recent developments in climate change observations and projections, observed and projected impacts on European forests and the associated uncertainties are reviewed and synthesised with a view to understanding the implications for forest management. Current impact assessments with simulation models contain several simplifications, which explain the discrepancy between results of many simulation studies and the rapidly increasing body of evidence about already observed changes in forest productivity and species distribution. In simulation models uncertainties tend to cascade onto one another; from estimating what future societies will be like and general circulation models (GCMs) at the global level, down to forest models and forest management at the local level. Individual climate change impact studies should not be uncritically used for decision-making without reflection on possible shortcomings in system understanding, model accuracy and other assumptions made. It is important for decision makers in forest management to realise that they have to take long-lasting management decisions while uncertainty about climate change impacts are still large. We discuss how to communicate about uncertainty - which is imperative for decision making - without diluting the overall message. Considering the range of possible trends and uncertainties in adaptive forest management requires expert knowledge and enhanced efforts for providing science-based decision support.

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Where are Europe’s last primary forests?

Sabatini

Burrascano

Keeton

et al. 2018

Diversity and Distributions

293

241

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Aim Primary forests have high conservation value but are rare in Europe due to historic land use. Yet many primary forest patches remain unmapped, and it is unclear to what extent they are effectively protected. Our aim was to (1) compile the most comprehensive European‐scale map of currently known primary forests, (2) analyse the spatial determinants characterizing their location and (3) locate areas where so far unmapped primary forests likely occur. Location Europe. Methods We aggregated data from a literature review, online questionnaires and 32 datasets of primary forests. We used boosted regression trees to explore which biophysical, socio‐economic and forest‐related variables explain the current distribution of primary forests. Finally, we predicted and mapped the relative likelihood of primary forest occurrence at a 1‐km resolution across Europe. Results Data on primary forests were frequently incomplete or inconsistent among countries. Known primary forests covered 1.4 Mha in 32 countries (0.7% of Europe’s forest area). Most of these forests were protected (89%), but only 46% of them strictly. Primary forests mostly occurred in mountain and boreal areas and were unevenly distributed across countries, biogeographical regions and forest types. Unmapped primary forests likely occur in the least accessible and populated areas, where forests cover a greater share of land, but wood demand historically has been low. Main conclusions Despite their outstanding conservation value, primary forests are rare and their current distribution is the result of centuries of land use and forest management. The conservation outlook for primary forests is uncertain as many are not strictly protected and most are small and fragmented, making them prone to extinction debt and human disturbance. Predicting where unmapped primary forests likely occur could guide conservation efforts, especially in Eastern Europe where large areas of primary forest still exist but are being lost at an alarming pace.

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Challenges and opportunities in mapping land use intensity globally

Kuemmerle

Erb

Meyfroidt

et al. 2013

Current Opinion in Environmental Sustainability

297

221

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HighlightsGlobal patterns of land use intensity are poorly understood, particularly in the developing world.The multidimensionality of land use intensity should be considered by jointly using input, output, and system metrics.A range of cropland intensity metrics exist, but existing data are often uncertain.Large data gaps remain for grazing and forestry intensity.Research priorities should include first, better integration of satellite-based and ground based data, second, validating and better documentation of datasets, and third, creation of consistent time series.

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First signs of carbon sink saturation in European forest biomass

et al. 2013

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Challenges for land system science

Rounsevell

Pedroli

Erb³

et al. 2012

Land Use Policy

333

181

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Marcus Lindner

Climate change impacts, adaptive capacity, and vulnerability of European forest ecosystems

Ecosystem Service Supply and Vulnerability to Global Change in Europe

How strongly can forest management influence soil carbon sequestration?

Climate change and European forests: What do we know, what are the uncertainties, and what are the implications for forest management?

Where are Europe’s last primary forests?

Challenges and opportunities in mapping land use intensity globally

First signs of carbon sink saturation in European forest biomass

Challenges for land system science

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