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Publications

NIBIOs employees contribute to several hundred scientific articles and research reports every year. You can browse or search in our collection which contains references and links to these publications as well as other research and dissemination activities. The collection is continously updated with new and historical material.

NIBIO's Scientific Publications →

2025

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Authors

Yanqing Li Yulian Zeng Daojun Li Lijuan Yu Qianwen Ding Yalin Yang Chao Ran Yuanyuan Yao Rolf-Erik Olsen Einar Ringø Jihong Liu Clarke Zhen Zhang Zhigang Zhou

Abstract

No abstract has been registered

Authors

Arne Verstraeten Andreas Schmitz Bernd Ahrends Nicholas Clarke Wim de Vries Karin Hansen Char Hilgers Carmen Iacoban Tamara Jakovljevic Per Erik Karlsson Till Kirchner Aldo Marchetto Henning Meesenburg Gunilla Pihl Karlsson Anne-Katrin Prescher Anne Thimonier Peter Waldner

Abstract

No abstract has been registered

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Authors

Xiaoge Fan Xiang Cao Min Zhang Jianwu Jiang Caihua Li Ou Fang Wenbing Wang Jin Zhang Nicholas Clarke Wenbo Liu Shengdao Shan

Abstract

No abstract has been registered

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Authors

Ruochen Li Xin Pei Ming Zhang Xuhui Deng Chengyuan Tao Jiabao Wang Xueli Chen Nicholas Clarke Lidia Sas-Paszt Zongzhuang Shen Rong Li Qirong Shen

Abstract

No abstract has been registered

Authors

Arne Verstraeten Andreas Schmitz Aldo Marchetto Nicholas Clarke Anne Thimonier Char Hilgers Anne-Katrin Prescher Till Kirchner Karin Hansen Tamara Jakovljevic Carmen Iacoban Wim de Vries Bernd Ahrends Henning Meesenburg Gunilla Pihl Karlsson Per Erik Karlsson Peter Waldner

Abstract

No abstract has been registered

Authors

Peter Waldner Katrin Meusburger Bruno de Vos Henning Meesenburg Kai Schwärzel Carmen Iacoban Zoran Galic Arne Verstraeten Andreas Schmitz Aldo Marchetto Nicholas Clarke Heleen Deroo Nathalie Cools Anne Thimonier Vera Fadrhonsovà Holger Sennhenn-Reulen Anna Andreetta Elena Vanguelova Antti-Jussi Lindroos Anita Zolles Tiina M. Nieminen

Abstract

No abstract has been registered

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Authors

Sakari Sarkkola Mika Nieminen Hjalmar Laudon Nicholas Clarke Eliza M. Hasselquist

Abstract

• Conventional forest operations can exert signifcant impacts on the hydrology and water quality of downstream aquatic environments. • Few research results have been published on the impacts of continuous cover forestry (CCF) on water quality. • CCF could be useful for reducing nutrient, carbon, and suspended solid exports in waterways. • CCF may be a better alternative to rotation forestry (RF) on mineral soils and drained peatlands. • Further research is needed on the many processes controlling nutrient and carbon exports in CCF and RF.

Authors

Christophe Moni Trond Henriksen Thomas Kätterer Ievina Sturite Randi Berland Frøseth

Abstract

No abstract has been registered

Authors

Junbin Zhao Mikhail Mastepanov Cornelya Klutsch Hanna Marika Silvennoinen David Kniha Svein Wara Runar Kjær

Abstract

No abstract has been registered

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Authors

Ryan Bright Danielle Creek Holger Lange Helge Meissner Morgane Merlin Junbin Zhao

Abstract

In terrestrial ecosystems, forest stands are the primary drivers of atmospheric moisture and local climate regulation, making the quantification of transpiration (T) at the stand level both highly relevant and scientifically important. Stand-level T quantification complements evapotranspiration monitoring by eddy-covariance systems, providing valuable insight into the water use efficiency of forested ecosystems in addition to serving as important inputs for the calibration and validation of global transpiration monitoring products based on satellite observations. Stand level T estimates are typically obtained by scaling up individual tree estimates of water movement within the xylem – or sap flow. This movement affects the radius of a tree stem, whose fluctuations over the diel cycle provide pertinent information about tree water relations which can be readily detected by point (or precision) dendrometers. While sap flow measurements have greatly advanced our understanding of water consumption (T) at the level of individual trees, deploying conventional sap flow monitoring equipment to quantify T at the level of entire forested stands (or ecosystems) can quickly become costly since sap flow measurements from many trees are required to reduce the uncertainty of the upscaling. Using a boreal old-growth Norway spruce stand at an ICOS site in Southern Norway as a case study, we assess the potential of augmenting conventional sap flow monitoring systems with sap flow modeling informed by point dendrometer measurements to reduce the uncertainty of stand level T estimation at the daily resolution. We test the hypothesis that the uncertainty reduction afforded by a boosted tree sample size more than offsets the propagation of uncertainty originating from the point dendrometer-based sap flow estimates.