Cities have become increasingly interested in reducing their greenhouse gas emissions and increasing carbon sequestration and storage in urban vegetation and soil as part of their climate mitigation actions. However, most of our knowledge of the biogenic carbon cycle is based on data and models from forested ecosystems, despite urban nature and microclimates differing greatly from those in natural or forested ecosystems. There is a need for modelling tools that can correctly consider temporal variations in the urban carbon cycle and take specific urban conditions into account. The main aims of our study were to (1) examine the carbon sequestration potential of two commonly used street tree species (Tilia x vulgaris and Alnus glutinosa) grow...
The biogenic CO2 surface atmosphere exchange is investigated and linked to vegetation cover fraction...
There is a growing need to simulate the effect of urban planning on both local climate and greenhous...
There is a growing need to simulate the effect of urban planning on both local climate and greenhous...
Cities have become increasingly interested in reducing their greenhouse gas emissions and increasing...
We assessed the net carbon (C) sequestration dynamics of street tree plantings based on 10 years of ...
Removing CO2 from the atmosphere and storing carbon in vegetation and soil are important ecosystem s...
Introduction: Planting trees in urban areas can mitigate some of the emissions generated in cities b...
Increasing atmospheric CO2 concentrations due to anthropogenic activity is resulting in climatic cha...
Cities aiming for carbon neutrality encounter considerable challenges, as urban areas are major cont...
Street trees are one of the most important components of urban green space in reducing the impacts o...
© 2015 British Ecological Society The capacity of urban areas to deliver provisioning ecosystem serv...
© 2015 Anuja Thushari EkanayakeConverting atmospheric carbon dioxide to biomass or solid carbon is a...
Urban forests are an essential part of adaptation and mitigation solutions for climate change. To un...
Extremely high temperatures, which negatively affect the human health and plant performances, are be...
Achieving carbon neutrality is crucial for urban ecosystems. Forests growing near cities largely det...
The biogenic CO2 surface atmosphere exchange is investigated and linked to vegetation cover fraction...
There is a growing need to simulate the effect of urban planning on both local climate and greenhous...
There is a growing need to simulate the effect of urban planning on both local climate and greenhous...
Cities have become increasingly interested in reducing their greenhouse gas emissions and increasing...
We assessed the net carbon (C) sequestration dynamics of street tree plantings based on 10 years of ...
Removing CO2 from the atmosphere and storing carbon in vegetation and soil are important ecosystem s...
Introduction: Planting trees in urban areas can mitigate some of the emissions generated in cities b...
Increasing atmospheric CO2 concentrations due to anthropogenic activity is resulting in climatic cha...
Cities aiming for carbon neutrality encounter considerable challenges, as urban areas are major cont...
Street trees are one of the most important components of urban green space in reducing the impacts o...
© 2015 British Ecological Society The capacity of urban areas to deliver provisioning ecosystem serv...
© 2015 Anuja Thushari EkanayakeConverting atmospheric carbon dioxide to biomass or solid carbon is a...
Urban forests are an essential part of adaptation and mitigation solutions for climate change. To un...
Extremely high temperatures, which negatively affect the human health and plant performances, are be...
Achieving carbon neutrality is crucial for urban ecosystems. Forests growing near cities largely det...
The biogenic CO2 surface atmosphere exchange is investigated and linked to vegetation cover fraction...
There is a growing need to simulate the effect of urban planning on both local climate and greenhous...
There is a growing need to simulate the effect of urban planning on both local climate and greenhous...