Lifespan and mortality of old oaks - combining empirical and modelling approaches to support their management in Southern Sweden
(2008) In Annals of Forest Science 65(4). p.401-401- Abstract
- Old oaks (Quercus robur L.) play an important role in the southern Scandinavian landscape by providing habitat for a wide range of species, a large proportion of them being currently on the National Redlists. To provide support for the management of these trees, we review data on oak mortality and formulate a mortality-driven stochastic model analysing interactions between mortality rate, oak recruitment rate into 100-150 age class, and amount of oaks older than 200 years. Empirical annual mortality rates varied between 0 and 13% with average 1.68%. Trees older 200 years had an average mortality rate of 1.1%. Oaks in the high density forests showed higher mortality (3.2%) as compared to the trees growing in the low density forests (1.2%).... (More)
- Old oaks (Quercus robur L.) play an important role in the southern Scandinavian landscape by providing habitat for a wide range of species, a large proportion of them being currently on the National Redlists. To provide support for the management of these trees, we review data on oak mortality and formulate a mortality-driven stochastic model analysing interactions between mortality rate, oak recruitment rate into 100-150 age class, and amount of oaks older than 200 years. Empirical annual mortality rates varied between 0 and 13% with average 1.68%. Trees older 200 years had an average mortality rate of 1.1%. Oaks in the high density forests showed higher mortality (3.2%) as compared to the trees growing in the low density forests (1.2%). A 400-year long modelling exercises indicated that under current mortality rates (regular mortality being centred around 1% annually; and irregular mortality 7% with average return time of 13 years) the long-term maintenance of 20 trees older than 200 years per ha would require an input rate of 1 to 5 trees x year(-1) x ha(-1) into the 100-150 years old class. The modelling highlighted the importance of initial oak abundance affecting amount of old trees at the end of shorter (100 years) simulation period. (Less)
Please use this url to cite or link to this publication:
https://lup.lub.lu.se/record/1257184
- author
- Drobyshev, Igor ; Niklasson, Mats ; Linderson, Hans LU ; Sonesson, Kerstin ; Karlsson, Matts ; Nilsson, Sven LU and Lanner, Jan
- organization
- publishing date
- 2008
- type
- Contribution to journal
- publication status
- published
- subject
- keywords
- disturbance, dynamics, population, dendrochronology, European hardwoods, conservation
- in
- Annals of Forest Science
- volume
- 65
- issue
- 4
- pages
- 401 - 401
- publisher
- Springer
- external identifiers
-
- wos:000257337100001
- scopus:44849137133
- ISSN
- 1286-4560
- DOI
- 10.1051/forest:2008012
- language
- English
- LU publication?
- yes
- id
- 9ee3227a-04bd-4215-9c00-ea7d121861d4 (old id 1257184)
- date added to LUP
- 2016-04-01 11:32:44
- date last changed
- 2022-04-05 01:40:29
@article{9ee3227a-04bd-4215-9c00-ea7d121861d4, abstract = {{Old oaks (Quercus robur L.) play an important role in the southern Scandinavian landscape by providing habitat for a wide range of species, a large proportion of them being currently on the National Redlists. To provide support for the management of these trees, we review data on oak mortality and formulate a mortality-driven stochastic model analysing interactions between mortality rate, oak recruitment rate into 100-150 age class, and amount of oaks older than 200 years. Empirical annual mortality rates varied between 0 and 13% with average 1.68%. Trees older 200 years had an average mortality rate of 1.1%. Oaks in the high density forests showed higher mortality (3.2%) as compared to the trees growing in the low density forests (1.2%). A 400-year long modelling exercises indicated that under current mortality rates (regular mortality being centred around 1% annually; and irregular mortality 7% with average return time of 13 years) the long-term maintenance of 20 trees older than 200 years per ha would require an input rate of 1 to 5 trees x year(-1) x ha(-1) into the 100-150 years old class. The modelling highlighted the importance of initial oak abundance affecting amount of old trees at the end of shorter (100 years) simulation period.}}, author = {{Drobyshev, Igor and Niklasson, Mats and Linderson, Hans and Sonesson, Kerstin and Karlsson, Matts and Nilsson, Sven and Lanner, Jan}}, issn = {{1286-4560}}, keywords = {{disturbance; dynamics; population; dendrochronology; European hardwoods; conservation}}, language = {{eng}}, number = {{4}}, pages = {{401--401}}, publisher = {{Springer}}, series = {{Annals of Forest Science}}, title = {{Lifespan and mortality of old oaks - combining empirical and modelling approaches to support their management in Southern Sweden}}, url = {{http://dx.doi.org/10.1051/forest:2008012}}, doi = {{10.1051/forest:2008012}}, volume = {{65}}, year = {{2008}}, }