Forest ecosystems play a crucial role in both regional and global carbon cycles. Temperate and boreal forests together cover about a quarter of the Earth's terrestrial land surface, which are large reservoirs of biogenic carbon and also perhaps our best defense against global warming and climate change. Improving our knowledge of carbon sinks in Northern Hemisphere temperate and boreal forest ecosystems is important for understanding their influence on global energy and water fluxes. There is growing interest in temperate and boreal forest carbon stocks and sequestration potential, and how forest ecosystems can be managed to achieve higher carbon stocks or trade-offs with other timber production.
This Research Topic is dedicated to reporting the advances in biomass and carbon stocks estimation, monitoring, verification and management in Northern Hemisphere temperate and boreal forest ecosystems for enhancing knowledge pertaining to the Sustainable Development Goals. It provides an opportunity for publishing forest ecosystem biomass and carbon stock models and products at different scales, mapping and monitoring methods from the multi-source datasets, verification means and uncertainty analysis for various products, and forest management technology considering carbon storage.
In this Research Topic, well-prepared submissions that cover one or more of the following topics are very welcome:
• Development of biomass and carbon stock models for the main species or forest types in various temperate and boreal forests.
• Analysis of carbon content of aboveground and belowground components in temperate and boreal forest ecosystems.
• Simulation of tree growth and estimation of carbon sink potential under climate change.
• Biomass and soil carbon stocks (belowground, litter and mineral soil compartments), their changes and uncertainty estimates in different forest types.
• Advanced forest biomass and carbon stock mapping and monitoring methods using various platforms and remote sensing data.
• Sustainable forest management considering carbon storage.
Forest ecosystems play a crucial role in both regional and global carbon cycles. Temperate and boreal forests together cover about a quarter of the Earth's terrestrial land surface, which are large reservoirs of biogenic carbon and also perhaps our best defense against global warming and climate change. Improving our knowledge of carbon sinks in Northern Hemisphere temperate and boreal forest ecosystems is important for understanding their influence on global energy and water fluxes. There is growing interest in temperate and boreal forest carbon stocks and sequestration potential, and how forest ecosystems can be managed to achieve higher carbon stocks or trade-offs with other timber production.
This Research Topic is dedicated to reporting the advances in biomass and carbon stocks estimation, monitoring, verification and management in Northern Hemisphere temperate and boreal forest ecosystems for enhancing knowledge pertaining to the Sustainable Development Goals. It provides an opportunity for publishing forest ecosystem biomass and carbon stock models and products at different scales, mapping and monitoring methods from the multi-source datasets, verification means and uncertainty analysis for various products, and forest management technology considering carbon storage.
In this Research Topic, well-prepared submissions that cover one or more of the following topics are very welcome:
• Development of biomass and carbon stock models for the main species or forest types in various temperate and boreal forests.
• Analysis of carbon content of aboveground and belowground components in temperate and boreal forest ecosystems.
• Simulation of tree growth and estimation of carbon sink potential under climate change.
• Biomass and soil carbon stocks (belowground, litter and mineral soil compartments), their changes and uncertainty estimates in different forest types.
• Advanced forest biomass and carbon stock mapping and monitoring methods using various platforms and remote sensing data.
• Sustainable forest management considering carbon storage.