Iniciar sesión
Registrarse
Restablecer contraseña
Publicar y Distribuir
Soluciones de Publicación
Soluciones de Distribución
Temas
Arquitectura y diseño
Artes
Ciencias Sociales
Ciencias de la Información y Bibliotecas, Estudios del Libro
Ciencias de la vida
Ciencias de los materiales
Deporte y tiempo libre
Estudios clásicos y del Cercano Oriente antiguo
Estudios culturales
Estudios judíos
Farmacia
Filosofía
Física
Geociencias
Historia
Informática
Ingeniería
Interés general
Ley
Lingüística y semiótica
Literatura
Matemáticas
Medicina
Música
Negocios y Economía
Química
Química industrial
Teología y religión
Publicaciones
Revistas
Libros
Actas
Editoriales
Blog
Contacto
Buscar
EUR
USD
GBP
Español
English
Deutsch
Polski
Español
Français
Italiano
Carrito
Home
Revistas
Geochronometria
Volumen 50 (2023): Edición 1 (January 2023)
Acceso abierto
Investigation of Trees' Sensitivity to Drought: A Case Study in the Opole Region, Poland
Barbara Benisiewicz
Barbara Benisiewicz
,
Sławomira Pawełczyk
Sławomira Pawełczyk
,
Francesco Niccoli
Francesco Niccoli
,
Jerzy Piotr Kabala
Jerzy Piotr Kabala
y
Giovanna Battipaglia
Giovanna Battipaglia
| 18 feb 2024
Geochronometria
Volumen 50 (2023): Edición 1 (January 2023)
Acerca de este artículo
Artículo anterior
Artículo siguiente
Resumen
Artículo
Figuras y tablas
Referencias
Autores
Artículos en este número
Vista previa
PDF
Cite
Compartir
Publicado en línea:
18 feb 2024
Páginas:
135 - 143
Recibido:
10 nov 2023
Aceptado:
28 dic 2023
DOI:
https://doi.org/10.2478/geochr-2023-0011
Palabras clave
declining trees
,
tree ring width
,
quantitative wood anatomy
,
drought
,
Scots pine
© 2023 Barbara Benisiewicz et al., published by Sciendo
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.
Fig 1.
Map with the location of the sampling site and meteorological station. In the inset is shown the location of the sampling site in Poland.
Fig 2.
(A) Amount of pine deadwood removed from the forest before and after drought in 2015; (B) Mean monthly values of precipitation and maximum monthly temperatures (with a fitted smoothing spline line) for the vegetation period (April–October) (data from the Opole meteorological station (IMGW-PIB, 2022)).
Fig 3.
Representation of anatomical features as LA and CWT. CWT, cell wall thickness; LA, lumen area.
Fig 4.
(A) RWI chronology for healthy and declining trees; (B) Comparison of mean RWI values for two groups of trees (healthy and declining) in two time periods. RWI, Ring Width Index.
Fig 5.
Static correlation coefficients for the relationship between relative humidity, maximum temperature, mean temperature, mean monthly precipitation, SPEI and RWI chronologies for declining and healthy trees. Months in lowercase refer to the previous year, while months in uppercase refer to the current year. The point represents the mean correlation, while the error bar represents the 95% confidence interval of the correlation based on 1000 bootstrap samples (Zang and Biondi, 2015). RWI, Ring Width Index; SPEI, Standardised Precipitation–Evapotranspiration Index.
Fig 6.
Comparison of: (A) mean LA and (B) mean CWT values for two groups of trees (healthy and declining) in two time periods. CWT, cell wall thickness; LA, lumen area.
Dendrochronological characteristic with a standard error of declining and healthy groups of trees.
Chronology length (years)
Mean age (years)
GLK
Mean sensitivity
Declining
90
72 ± 15
68 ± 8
0.14
Healthy
87
65 ± 17
72 ± 4
0.17