Add to ORKGForest canopies influence our climate through carbon, water and energy exchanges with the atmosphere. However, less investigated is whether and how tree canopies change the chemical composition of precipitation, with important implications on forest nutrient cycling. Recently, we provided for the first time isotopic evidence that biological nitrification in tree canopies was responsible for significant changes in the amount of nitrate from rainfall to throughfall across two UK forests at high nitrogen (N) deposition [1]. This finding strongly suggested that bacteria and/or Archaea species of the phyllosphere are responsible for transforming atmospheric N before it reaches the soil. Despite microbial epiphytes representing an important compo...
Just over three-quarters (78%) of the atmosphere comprises inert nitrogen which has very limited ava...
Seasonal and spatial variations in foliar nitrogen (N) parameters were investigated in three Europea...
Volatile nitrogen oxides (N2O, NO, NO2, HONO, …) can negatively impact climate, air quality, and hum...
Forest canopies influence our climate through carbon, water and energy exchanges with the atmosphere...
1. Microbial activity plays a central role in nitrogen (N) cycling, with effects on forest productiv...
1. Microbial activity plays a central role in nitrogen (N) cycling, with effects on forest productiv...
This study examines the role of tree canopies in processing atmospheric nitrogen (Ndep) for four for...
Purpose of Review We provide an overview of the main processes occurring during the interactions bet...
Rising atmospheric CO (c) has been shown to increase forest carbon uptake. Yet, whether the c-fertil...
The importance that nitrogen (N) deposition has in driving the carbon (C) sequestration of forests h...
Due to forest fragmentation, forest edges have become dominant features in landscapes around the wor...
Ongoing climate change will lead to more extreme weather events, including severe drought periods an...
Nitrous oxide (N2O) is an important greenhouse gas and participates in the destruction of stratosphe...
Biological nitrogen fixation is the primary supply of N to most ecosystems, yet there is considerabl...
The predominant input of available nitrogen (N) in boreal forest ecosystems originates from moss-ass...
Just over three-quarters (78%) of the atmosphere comprises inert nitrogen which has very limited ava...
Seasonal and spatial variations in foliar nitrogen (N) parameters were investigated in three Europea...
Volatile nitrogen oxides (N2O, NO, NO2, HONO, …) can negatively impact climate, air quality, and hum...
Forest canopies influence our climate through carbon, water and energy exchanges with the atmosphere...
1. Microbial activity plays a central role in nitrogen (N) cycling, with effects on forest productiv...
1. Microbial activity plays a central role in nitrogen (N) cycling, with effects on forest productiv...
This study examines the role of tree canopies in processing atmospheric nitrogen (Ndep) for four for...
Purpose of Review We provide an overview of the main processes occurring during the interactions bet...
Rising atmospheric CO (c) has been shown to increase forest carbon uptake. Yet, whether the c-fertil...
The importance that nitrogen (N) deposition has in driving the carbon (C) sequestration of forests h...
Due to forest fragmentation, forest edges have become dominant features in landscapes around the wor...
Ongoing climate change will lead to more extreme weather events, including severe drought periods an...
Nitrous oxide (N2O) is an important greenhouse gas and participates in the destruction of stratosphe...
Biological nitrogen fixation is the primary supply of N to most ecosystems, yet there is considerabl...
The predominant input of available nitrogen (N) in boreal forest ecosystems originates from moss-ass...
Just over three-quarters (78%) of the atmosphere comprises inert nitrogen which has very limited ava...
Seasonal and spatial variations in foliar nitrogen (N) parameters were investigated in three Europea...
Volatile nitrogen oxides (N2O, NO, NO2, HONO, …) can negatively impact climate, air quality, and hum...