Your search keyword '"Alan Crivellaro"' showing total 12 results

1. Reply to: Biogeographic implications of plant stature and microclimate in cold regions

Author

Ulf Büntgen, Alma Piermattei, Jiri Dolezal, Paul Dupree, and Alan Crivellaro

Subjects

Biology (General), QH301-705.5

Published

2023

2. Biogeographic implication of temperature-induced plant cell wall lignification

Author

Alan Crivellaro, Alma Piermattei, Jiri Dolezal, Paul Dupree, and Ulf Büntgen

Subjects

Biology (General), QH301-705.5

Abstract

Abstract More than 200 years after von Humboldt’s pioneering work on the treeline, our understanding of the cold distribution limit of upright plant growth is still incomplete. Here, we use wood anatomical techniques to estimate the degree of stem cell wall lignification in 1770 plant species from six continents. Contrary to the frequent belief that small plants are less lignified, we show that cell wall lignification in ‘woody’ herbs varies considerably. Although trees and shrubs always exhibit lignified cell walls in their upright stems, small plants above the treeline may contain less lignin. Our findings suggest that extremely cold growing season temperatures can reduce the ability of plants to lignify their secondary cell walls. Corroborating experimental and observational evidence, this study proposes to revisit existing theories about the thermal distribution limit of upright plant growth and to consider biochemical and biomechanical factors for explaining the global treeline position.

Published

2022

3. Priorities for Bark Anatomical Research: Study Venues and Open Questions

Author

Ilana Shtein, Jožica Gričar, Simcha Lev-Yadun, Alexei Oskolski, Marcelo R. Pace, Julieta A. Rosell, and Alan Crivellaro

Subjects

bark, anatomy, cork, dilatation, periderm, phellogen, Botany, QK1-989

Abstract

The bark fulfils several essential functions in vascular plants and yields a wealth of raw materials, but the understanding of bark structure and function strongly lags behind our knowledge with respect to other plant tissues. The recent technological advances in sampling and preparation of barks for anatomical studies, along with the establishment of an agreed bark terminology, paved the way for more bark anatomical research. Whilst datasets reveal bark’s taxonomic and functional diversity in various ecosystems, a better understanding of the bark can advance the understanding of plants’ physiological and environmental challenges and solutions. We propose a set of priorities for understanding and further developing bark anatomical studies, including periderm structure in woody plants, phloem phenology, methods in bark anatomy research, bark functional ecology, relationships between bark macroscopic appearance, and its microscopic structure and discuss how to achieve these ambitious goals.

Published

2023

4. Effects of an innovative densification process on mechanical and physical properties of beech and Norway spruce veneers

Author

Alex Cencin, Michela Zanetti, Tiziana Urso, and Alan Crivellaro

Subjects

Wood densification, MOE, Wood color, Veneers, Wood density, Forestry, SD1-669.5, Building construction, TH1-9745

Abstract

Abstract Increased wood density is obtained by compressing the wood porous structure under suitable moisture and temperature conditions to improve its physical, mechanical and color properties. A recently proposed wood densification method based on partial removal of lignin and hemicellulose in hot water solution of sodium hydroxide and sodium sulphite has shown promising results on solid wood. However, its applicability and effect on thin wood veneers have not been tested yet. In this study, the timing of the method has been adapted to estimate the densification treatment intensity dependence of wood properties (wood density and modulus of elasticity) and color change of softwood (Norway spruce) and hardwood (beech) veneers. Compared to control, density and rigidity increased, with improved wood properties peaking after only 90 s of treatment intensity. Furthermore, the color became darker after treatment compared to control, with no significant color difference between treatment intensities. In conclusion, densification of veneers, according to the presented adapted method, provides a significant improvement of veneers physical and mechanical properties, and produces color changes perceptible by the human eye. Our results can be further implemented and adapted to application in industrial plants, calling for new application of densified veneers.

Published

2021

5. Author Correction: Biogeographic implication of temperature-induced plant cell wall lignification

Author

Alan Crivellaro, Alma Piermattei, Jiri Dolezal, Paul Dupree, and Ulf Büntgen

Subjects

Biology (General), QH301-705.5

Published

2023

6. The Response of Beech (Fagus sylvatica L.) Populations to Climate in the Easternmost Sites of Its European Distribution

Author

Cătălin-Constantin Roibu, Ciprian Palaghianu, Viorica Nagavciuc, Monica Ionita, Victor Sfecla, Andrei Mursa, Alan Crivellaro, Marian-Ionut Stirbu, Mihai-Gabriel Cotos, Andrei Popa, Irina Sfecla, and Ionel Popa

Subjects

marginal beech population, vapor pressure deficit, dendrochronology, tree ring, growth, Botany, QK1-989

Abstract

In the context of forecasted climate change scenarios, the growth of forest tree species at their distribution margin is crucial to adapt current forest management strategies. Analyses of beech (Fagus sylvatica L.) growth have shown high plasticity, but easternmost beech populations have been rarely studied. To describe the response of the marginal beech population to the climate in the far east sites of its distribution, we first compiled new tree ring width chronologies. Then we analyzed climate–growth relationships for three marginal beech populations in the Republic of Moldova. We observed a relatively high growth rate in the marginal populations compared to core distribution sites. Our analyses further revealed a distinct and significant response of beech growth to all climatic variables, assessing for the first time the relationship between growth and vapor pressure deficit (VPD) which described how plant growth responds to drought. These results highlight that accumulated water deficit is an essential limiting factor of beech growth in this region. In conclusion, beech growth in the easternmost marginal population is drought-limited, and the sensitivity to VPD will need to be considered in future studies to update the forest management of other economic and ecologically important species.

Published

2022

7. Limited capacity of tree growth to mitigate the global greenhouse effect under predicted warming

Author

Ulf Büntgen, Paul J. Krusic, Alma Piermattei, David A. Coomes, Jan Esper, Vladimir S. Myglan, Alexander V. Kirdyanov, J. Julio Camarero, Alan Crivellaro, and Christian Körner

Subjects

Science

Abstract

Fertilization under greenhouse warming conditions is expected to accelerate tree growth and potentially increase the biological storage of CO2. Here the authors analyse ring width measurements from 1768 conifers from the Spanish and Russian mountains and demonstrate that longevity requires slow growth rates at least in mountainous regions.

Published

2019

8. Functional Relationships of Wood Anatomical Traits in Norway Spruce

Author

Alma Piermattei, Georg von Arx, Camilla Avanzi, Patrick Fonti, Holger Gärtner, Andrea Piotti, Carlo Urbinati, Giovanni Giuseppe Vendramin, Ulf Büntgen, and Alan Crivellaro

Subjects

allometric effect, ontogenesis, quantitative wood anatomy, temporal stability, xylem hydraulic constraints, Plant culture, SB1-1110

Abstract

The quantitative assessment of wood anatomical traits offers important insights into those factors that shape tree growth. While it is known that conduit diameter, cell wall thickness, and wood density vary substantially between and within species, the interconnection between wood anatomical traits, tree-ring width, tree height and age, as well as environment effects on wood anatomy remain unclear. Here, we measure and derived 65 wood anatomical traits in cross-sections of the five outermost tree rings (2008–2012) of 30 Norway spruce [Picea abies (L.) H. Karst.] trees growing along an altitudinal gradient (1,400–1,750 m a.s.l.) in the northern Apennines (Italy). We assess the relationship among each anatomical trait and between anatomical trait groups according to their function for (i) tree-ring growth, (ii) cell growth, (iii) hydraulic traits, and (iv) mechanical traits. The results show that tree height significantly affects wood hydraulic traits, as well as number and tangential diameter of tracheids, and ultimately the total ring width. Moreover, the amount of earlywood and latewood percentage influence wood hydraulic safety and efficiency, as well as mechanical traits. Mechanically relevant wood anatomical traits are mainly influenced by tree age, not necessarily correlated with tree height. An additional level of complexity is also indicated by some anatomical traits, such as latewood lumen diameter and the cell wall reinforcement index, showing large inter-annual variation as a proxy of phenotypic plasticity. This study unravels the complex interconnection of tree-ring tracheid structure and identifies anatomical traits showing a large inter-individual variation and a strong interannual coherency. Knowing and quantifying anatomical variation in cells of plant stem is crucial in ecological and biological studies for an appropriate interpretation of abiotic drivers of wood formation often related to tree height and/or tree age.

Published

2020

9. The anatomy of »blue ring« in the wood of Pinus nigra

Author

Alan Crivellaro, Marco Reverenna, Flavio Ruffinatto, Carlo Urbinati, and Alma Piermattei

Subjects

lignification, tree ring, pointer year, cell wall, tracheids, pits, Forestry, SD1-669.5

Abstract

Tree-ring features are widely used to identify specific climate, environment and stress events affecting plant life. Cold temperatures can mainly affect the last phase of cell differentiation by interfering in the process of cell wall lignin deposition. Recently, it was found out that the effect of cold temperature on lignification is visible in wood microsections double stained with astra blue which stains cellulose, and red safranin which stains lignin. This new tree-ring feature was called »blue ring«. In this study, we investigated the anatomical morphology of blue rings in transverse and longitudinal wood microsections of three European black pine trees (Pinus nigra Arnold) growing above the treeline. We aim to understand if the lack of lignification is consistent along the entire tracheid length and whether or not pits, responsible for water transport from one tracheid to another, are lignified. The results show that the lack of lignification extends along the entire tracheids cell wall, including bordered pits. Based on our observations we speculate that blue ring occurrence decreases the safety of water transport and wood mechanical properties.

Published

2018

10. A millennium-long ‘Blue Ring’ chronology from the Spanish Pyrenees reveals severe ephemeral summer cooling after volcanic eruptions

Author

Alma Piermattei, Alan Crivellaro, Paul J Krusic, Jan Esper, Petr Vítek, Clive Oppenheimer, Martin Felhofer, Notburga Gierlinger, Frederick Reinig, Otmar Urban, Anne Verstege, Hannah Lobo, and Ulf Büntgen

Subjects

Blue Rings, climate reconstructions, lignin, summer temperatures, tree rings, volcanic eruptions, Environmental technology. Sanitary engineering, TD1-1066, Environmental sciences, GE1-350, Science, Physics, QC1-999

Abstract

‘ Blue Rings’ (BRs) are distinct wood anatomical anomalies recently discovered in several tree species from different sites. While it is evident that they are associated with a cooling-induced lack of cell wall lignification, BRs have yet to be evaluated systematically in paleoclimate studies. Here, we present a continuous wood anatomical assessment of 31 living and relict pine samples from a high-elevation site in the central Spanish Pyrenees that span the period 1150–2017 CE at annual resolution. While most BR years coincide with cold summer temperatures and many BRs follow large volcanic eruptions, some were formed during overall warm summers. We also see a differential response between eruptions: the Samalas eruption is followed by 80% BRs in 1258, but only a modest signal is evident after the 1815 Tambora eruption, and there are no wood anatomical effects of the Laki eruption in 1783–1784. Apparently linked to a cluster of tropical eruptions in 1695 and 1696 CE, 85% BRs occurred in 1698. This new wood anatomical evidence is corroborated by the record of sulphur deposition in polar ice cores, and corresponds with catastrophic famine and unprecedented mortality in Scotland. The extremely rare occurrence of consecutive BRs in 1345 and 1346 marks the onset and spread of the Black Death, Europe’s most devastating plague pandemic. In their ability to capture severe ephemeral cold spells, as short as several days or weeks, BR chronologies can help to investigate and understand the impacts of volcanism on climate and society.

Published

2020

11. Author Correction: Limited capacity of tree growth to mitigate the global greenhouse effect under predicted warming

Author

Ulf Büntgen, Paul J. Krusic, Alma Piermattei, David A. Coomes, Jan Esper, Vladimir S. Myglan, Alexander V. Kirdyanov, J. Julio Camarero, Alan Crivellaro, and Christian Körner

Subjects

Science

Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Published

2019

12. Structural diagnosis of historic timber structures: the Diplomatic Room of the of Royal Palace of Naples

Author

Donato Calicchio, Mauro Bernabei, Michele Brunetti, Alan Crivellaro, Nicola Macchioni, and Claudio Pollini

Subjects

Estructura, Madera, Diagnóstico, Dendrocronología, Resistencia mecánica, Conservation and restoration of prints, NE380, Architectural drawing and design, NA2695-2793

Abstract

The aim of this article is to describe the diagnosis process made on the timber structure that holds up the vault of the Diplomatic Room of the Royal Palace in Naples (Italy). After a brief historical description of the Royal Palace and the Diplomatic Room, it discusses the methodology according to Italian regulations and the speci­fic problems that arose during the works. To complete the diagnosis, a dendrochronological analysis of the wooden elements was performed. The results show the residual mechanical properties of each structural element and the main problems to be resolved by the restorers. The dendrochronological conclusions yield that the dating of the elements is compatible with that of the frescoes on the vault and therefore demonstrate that the elements have not been replaced.

Published

2012