Unleashing the Power of Plant Structural and Functional Diversity: From Common Observations to Theory and Management Models DOI Creative Commons
Felipe Bravo, Wopke Van der Werf, Roberto Tognetti

et al.

Food and Energy Security, Journal Year: 2024, Volume and Issue: 13(5)

Published: Sept. 1, 2024

ABSTRACT New approaches for managing agricultural and forestry systems are needed to bring back inputs levels that within planetary boundaries make greater better use of ecosystem services based on biodiversity. A new scientific framework informed by ecology, agronomy, forestry, agroforestry is key designing resilient plant‐based ecosystems meet this challenge. Integrating information plant functional traits, ontogenetic development stages, site characteristics, structural stand characteristics can unleash the power diversity (in species traits temporal arrangements) as a crucial factor sustaining environmental in times global change. To leverage benefits diversity, general theoretical scalable simulation models understand diversification effects interactions at multiple levels, from field/forest landscape. By working across established research boundaries, community harness develop resilient, production‐oriented ecosystems. With integrative approach, our objectives follows: (i) conceptualize processes methodologies terrestrial guarantee sustainable diversified (ii) outline workflow crafting system capable human well‐being amid space, resource, energy constraints.

Language: Английский

Carbon farming in the European forestry sector DOI Open Access
Tommaso Chiti, Ana Rey, Jens Abildtrup

et al.

From science to policy, Journal Year: 2024, Volume and Issue: unknown

Published: Oct. 4, 2024

Language: Английский

Citations

3
Divergent regional volume growth responses of Scots Pine and Oak stands to climate change in Europe DOI Creative Commons
Carl Vigren, Sonja Vospernik, Xavier Morin

et al.

The Science of The Total Environment, Journal Year: 2025, Volume and Issue: 969, P. 178858 - 178858

Published: Feb. 26, 2025

European climatic change has been proposed to induce many changes forests, about factors such as tree species distributions, site productivity, groundwater availability, outbreaks of forest pests, and damage from wind-breakage trees. Novel approaches empirical growth modelling using re-measurements over large gradients capture variability associated with long-term conditions well weather during the period. Using latest version individual tree-based simulator, PrognAus, which outfitted a climate-sensitive basal area increment module, we forecast trees in pure mixed stands Pinus sylvestris L. Quercus spp. across network 23 sites between 2017 2100 under current climate RCP 4.5 8.5 scenarios. By training stand-level static reduced model (SRM) these local level results, widespread future for Europe. Our SRM predicts stand gross-volume relative (ratio gross volume production given year until start year) generalized additive (GAMM). We decomposed overall into tensors capturing variation mixture type (pure P. sylvestris, sylvestris- Q. spp., spp.), age, preceeding year. Wall-to-wall predictions based on are presented high-resolution 30-arcsecond grid spanning most parts

Language: Английский

Citations

0
Tree Growth in Relation to Climate Change: Understanding the Impact on Species Worldwide DOI Open Access
Yassine Messaoud

Forests, Journal Year: 2024, Volume and Issue: 15(9), P. 1601 - 1601

Published: Sept. 11, 2024

Climate change is one of the most important environmental issues our time, which has profound effects on ecosystems all over world [...]

Language: Английский

Citations

0
Unleashing the Power of Plant Structural and Functional Diversity: From Common Observations to Theory and Management Models DOI Creative Commons
Felipe Bravo, Wopke Van der Werf, Roberto Tognetti

et al.

Food and Energy Security, Journal Year: 2024, Volume and Issue: 13(5)

Published: Sept. 1, 2024

ABSTRACT New approaches for managing agricultural and forestry systems are needed to bring back inputs levels that within planetary boundaries make greater better use of ecosystem services based on biodiversity. A new scientific framework informed by ecology, agronomy, forestry, agroforestry is key designing resilient plant‐based ecosystems meet this challenge. Integrating information plant functional traits, ontogenetic development stages, site characteristics, structural stand characteristics can unleash the power diversity (in species traits temporal arrangements) as a crucial factor sustaining environmental in times global change. To leverage benefits diversity, general theoretical scalable simulation models understand diversification effects interactions at multiple levels, from field/forest landscape. By working across established research boundaries, community harness develop resilient, production‐oriented ecosystems. With integrative approach, our objectives follows: (i) conceptualize processes methodologies terrestrial guarantee sustainable diversified (ii) outline workflow crafting system capable human well‐being amid space, resource, energy constraints.

Language: Английский

Citations

0