Your search keyword '"Rodrigo, Ruffy"' showing total 3 results

1. Pathways and drivers of canopy accession across primary temperate forests of Europe.

Author

Pavlin J, Nagel TA, Svitok M, Di Filippo A, Mikac S, Keren S, Dikku A, Toromani E, Panayotov M, Zlatanov T, Haruta O, Dorog S, Chaskovskyy O, Bače R, Begović K, Buechling A, Dušátko M, Frankovič M, Janda P, Kameniar O, Kozák D, Marchand W, Mikoláš M, Rodrigo R, and Svoboda M

Subjects

Humans, Forests, Europe, Trees, Picea, Abies, Fagus physiology, Acer

Abstract

Canopy accession strategies reveal much about tree life histories and forest stand dynamics. However, the protracted nature of ascending to the canopy makes direct observation challenging. We use a reconstructive approach based on an extensive tree ring database to study the variability of canopy accession patterns of dominant tree species (Abies alba, Acer pseudoplatanus, Fagus sylvatica, Picea abies) in temperate mountain forests of Europe and elucidate how disturbance histories, climate, and topography affect canopy accession. All four species exhibited high variability of radial growth histories leading to canopy accession and indicated varying levels of shade tolerance. Individuals of all four species survived at least 100 years of initial suppression. Fir and particularly beech, however, survived longer periods of initial suppression, exhibited more release events, and reached the canopy later on average, with a larger share of trees accessing the canopy after initially suppressed growth. These results indicate the superior shade tolerance of beech and fir compared to spruce and maple. The two less shade-tolerant species conversely relied on faster growth rates, revealing their competitive advantage in non-suppressed conditions. Additionally, spruce from higher-elevation spruce-dominated forests survived shorter periods of initial shading and exhibited fewer releases, with a larger share of trees reaching the canopy after open canopy recruitment (i.e. in absence of suppression) and no subsequent releases compared to spruce growing in lower-elevation mixed forests. Finally, disturbance factors were identified as the primary driver of canopy accession, whereby disturbances accelerate canopy accession and consequently regulate competitive interactions. Intensifying disturbance regimes could thus promote shifts in species composition, particularly in favour of faster-growing, more light-demanding species., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published

2024

2. Importance of conserving large and old trees to continuity of tree-related microhabitats.

Author

Kozák D, Svitok M, Zemlerová V, Mikoláš M, Lachat T, Larrieu L, Paillet Y, Buechling A, Bače R, Keeton WS, Vítková L, Begovič K, Čada V, Dušátko M, Ferenčík M, Frankovič M, Gloor R, Hofmeister J, Janda P, Kameniar O, Kníř T, Majdanová L, Mejstřík M, Pavlin J, Ralhan D, Rodrigo R, Roibu CC, Synek M, Vostarek O, and Svoboda M

Subjects

Animals, Forests, Biodiversity, Insecta, Trees, Conservation of Natural Resources

Abstract

Protecting structural features, such as tree-related microhabitats (TreMs), is a cost-effective tool crucial for biodiversity conservation applicable to large forested landscapes. Although the development of TreMs is influenced by tree diameter, species, and vitality, the relationships between tree age and TreM profile remain poorly understood. Using a tree-ring-based approach and a large data set of 8038 trees, we modeled the effects of tree age, diameter, and site characteristics on TreM richness and occurrence across some of the most intact primary temperate forests in Europe, including mixed beech and spruce forests. We observed an overall increase in TreM richness on old and large trees in both forest types. The occurrence of specific TreM groups was variably related to tree age and diameter, but some TreM groups (e.g., epiphytes) had a stronger positive relationship with tree species and elevation. Although many TreM groups were positively associated with tree age and diameter, only two TreM groups in spruce stands reacted exclusively to tree age (insect galleries and exposed sapwood) without responding to diameter. Thus, the retention of trees for conservation purposes based on tree diameter appears to be a generally feasible approach with a rather low risk of underrepresentation of TreMs. Because greater tree age and diameter positively affected TreM development, placing a greater emphasis on conserving large trees and allowing them to reach older ages, for example, through the establishment of conservation reserves, would better maintain the continuity of TreM resource and associated biodiversity. However, this approach may be difficult due to the widespread intensification of forest management and global climate change., (© 2023 Society for Conservation Biology.)

Published

2023

3. Natural disturbance impacts on trade-offs and co-benefits of forest biodiversity and carbon.

Author

Mikoláš M, Svitok M, Bače R, Meigs GW, Keeton WS, Keith H, Buechling A, Trotsiuk V, Kozák D, Bollmann K, Begovič K, Čada V, Chaskovskyy O, Ralhan D, Dušátko M, Ferenčík M, Frankovič M, Gloor R, Hofmeister J, Janda P, Kameniar O, Lábusová J, Majdanová L, Nagel TA, Pavlin J, Pettit JL, Rodrigo R, Roibu CC, Rydval M, Sabatini FM, Schurman J, Synek M, Vostarek O, Zemlerová V, and Svoboda M

Subjects

Biodiversity, Carbon Sequestration, Conservation of Natural Resources, Forests, Trees, Carbon analysis, Climate Change

Abstract

With accelerating environmental change, understanding forest disturbance impacts on trade-offs between biodiversity and carbon dynamics is of high socio-economic importance. Most studies, however, have assessed immediate or short-term effects of disturbance, while long-term impacts remain poorly understood. Using a tree-ring-based approach, we analysed the effect of 250 years of disturbances on present-day biodiversity indicators and carbon dynamics in primary forests. Disturbance legacies spanning centuries shaped contemporary forest co-benefits and trade-offs, with contrasting, local-scale effects. Disturbances enhanced carbon sequestration, reaching maximum rates within a comparatively narrow post-disturbance window (up to 50 years). Concurrently, disturbance diminished aboveground carbon storage, which gradually returned to peak levels over centuries. Temporal patterns in biodiversity potential were bimodal; the first maximum coincided with the short-term post-disturbance carbon sequestration peak, and the second occurred during periods of maximum carbon storage in complex old-growth forest. Despite fluctuating local-scale trade-offs, forest biodiversity and carbon storage remained stable across the broader study region, and our data support a positive relationship between carbon stocks and biodiversity potential. These findings underscore the interdependencies of forest processes, and highlight the necessity of large-scale conservation programmes to effectively promote both biodiversity and long-term carbon storage, particularly given the accelerating global biodiversity and climate crises.

Published

2021