Modelling coarse woody debris dynamics in even-aged Scots pine forests
Coarse woody debris (CWD) has become an important component in the study of forest ecosystems, being a key factor in the nutrient cycle as well as a habitat for many species. CWD dynamics varies greatly from primeval to managed forests. To assess the CWD dynamics, a chronosequence trial was established in two Scots pine forests in the Central mountain range in Spain. Although, the shelterwood system has been applied in both forests, one has received more intensive silviculture, whereas in the other, regeneration has been much more gradual and the thinning regime has not been so intensive. In order to inventory CWD, five decay classes and four categories according to size and CWD type (stumps and fallen logs or branches) were defined. The volume of branches and logs (estimated from length and mean diameter) and the number of stumps by size class and decay class are used to characterise the CWD. The most notable differences between the two silvicultural systems can be appreciated in the graph as peaks for temporary distribution of larger logs and stumps when intensive silviculture is applied. The CWD observed in the forests studied is mainly produced by logging. The maximum volume of logs and branches above 5 cm in diameter is 43.25 m3/ha after regeneration felling in the first forest, whereas in the other, a maximum of 16.30 m3/ha is reached at 60 years, just after thinning. Large stumps (diameter equal or greater than 30 cm) make up an important part of CWD biomass in these forests just after the regeneration felling. A model was developed to predict the changes in CWD quantity and quality distribution over time as well as predicting the effect of different silviculture options on CWD dynamics. The model integrates two different processes the CWD inputs (which may be continuous or instant), and the decay process, modelled through a Richards-Chapman function. The average lifetime of CWD obtained ranges from 30 years for stumps over 30 cm in diameter to 8 years for logs with a diameter less than 10 cm. © 2005 Elsevier B.V. All rights reserved.
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| Language: | English |
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Elsevier
2006
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| Subjects: | Coarse woody debris, Scots pine, Forest structure, Forest dynamics, |
| Online Access: | http://hdl.handle.net/20.500.12792/5304 http://hdl.handle.net/10261/293182 |
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dig-inia-es-10261-2931822023-02-20T10:25:48Z Modelling coarse woody debris dynamics in even-aged Scots pine forests Montes Pita, Fernando Cañellas, I. Coarse woody debris Scots pine Forest structure Forest dynamics Coarse woody debris (CWD) has become an important component in the study of forest ecosystems, being a key factor in the nutrient cycle as well as a habitat for many species. CWD dynamics varies greatly from primeval to managed forests. To assess the CWD dynamics, a chronosequence trial was established in two Scots pine forests in the Central mountain range in Spain. Although, the shelterwood system has been applied in both forests, one has received more intensive silviculture, whereas in the other, regeneration has been much more gradual and the thinning regime has not been so intensive. In order to inventory CWD, five decay classes and four categories according to size and CWD type (stumps and fallen logs or branches) were defined. The volume of branches and logs (estimated from length and mean diameter) and the number of stumps by size class and decay class are used to characterise the CWD. The most notable differences between the two silvicultural systems can be appreciated in the graph as peaks for temporary distribution of larger logs and stumps when intensive silviculture is applied. The CWD observed in the forests studied is mainly produced by logging. The maximum volume of logs and branches above 5 cm in diameter is 43.25 m3/ha after regeneration felling in the first forest, whereas in the other, a maximum of 16.30 m3/ha is reached at 60 years, just after thinning. Large stumps (diameter equal or greater than 30 cm) make up an important part of CWD biomass in these forests just after the regeneration felling. A model was developed to predict the changes in CWD quantity and quality distribution over time as well as predicting the effect of different silviculture options on CWD dynamics. The model integrates two different processes the CWD inputs (which may be continuous or instant), and the decay process, modelled through a Richards-Chapman function. The average lifetime of CWD obtained ranges from 30 years for stumps over 30 cm in diameter to 8 years for logs with a diameter less than 10 cm. © 2005 Elsevier B.V. All rights reserved. 2023-02-20T10:25:48Z 2023-02-20T10:25:48Z 2006 journal article Forest Ecology and Management 221(1-3): 220-232 (2006) 0378-1127 http://hdl.handle.net/20.500.12792/5304 http://hdl.handle.net/10261/293182 10.1016/j.foreco.2005.10.019 1872-7042 en none Elsevier |
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Coarse woody debris Scots pine Forest structure Forest dynamics Coarse woody debris Scots pine Forest structure Forest dynamics |
| spellingShingle |
Coarse woody debris Scots pine Forest structure Forest dynamics Coarse woody debris Scots pine Forest structure Forest dynamics Montes Pita, Fernando Cañellas, I. Modelling coarse woody debris dynamics in even-aged Scots pine forests |
| description |
Coarse woody debris (CWD) has become an important component in the study of forest ecosystems, being a key factor in the nutrient cycle as well as a habitat for many species. CWD dynamics varies greatly from primeval to managed forests. To assess the CWD dynamics, a chronosequence trial was established in two Scots pine forests in the Central mountain range in Spain. Although, the shelterwood system has been applied in both forests, one has received more intensive silviculture, whereas in the other, regeneration has been much more gradual and the thinning regime has not been so intensive. In order to inventory CWD, five decay classes and four categories according to size and CWD type (stumps and fallen logs or branches) were defined. The volume of branches and logs (estimated from length and mean diameter) and the number of stumps by size class and decay class are used to characterise the CWD. The most notable differences between the two silvicultural systems can be appreciated in the graph as peaks for temporary distribution of larger logs and stumps when intensive silviculture is applied. The CWD observed in the forests studied is mainly produced by logging. The maximum volume of logs and branches above 5 cm in diameter is 43.25 m3/ha after regeneration felling in the first forest, whereas in the other, a maximum of 16.30 m3/ha is reached at 60 years, just after thinning. Large stumps (diameter equal or greater than 30 cm) make up an important part of CWD biomass in these forests just after the regeneration felling. A model was developed to predict the changes in CWD quantity and quality distribution over time as well as predicting the effect of different silviculture options on CWD dynamics. The model integrates two different processes the CWD inputs (which may be continuous or instant), and the decay process, modelled through a Richards-Chapman function. The average lifetime of CWD obtained ranges from 30 years for stumps over 30 cm in diameter to 8 years for logs with a diameter less than 10 cm. © 2005 Elsevier B.V. All rights reserved. |
| format |
journal article |
| topic_facet |
Coarse woody debris Scots pine Forest structure Forest dynamics |
| author |
Montes Pita, Fernando Cañellas, I. |
| author_facet |
Montes Pita, Fernando Cañellas, I. |
| author_sort |
Montes Pita, Fernando |
| title |
Modelling coarse woody debris dynamics in even-aged Scots pine forests |
| title_short |
Modelling coarse woody debris dynamics in even-aged Scots pine forests |
| title_full |
Modelling coarse woody debris dynamics in even-aged Scots pine forests |
| title_fullStr |
Modelling coarse woody debris dynamics in even-aged Scots pine forests |
| title_full_unstemmed |
Modelling coarse woody debris dynamics in even-aged Scots pine forests |
| title_sort |
modelling coarse woody debris dynamics in even-aged scots pine forests |
| publisher |
Elsevier |
| publishDate |
2006 |
| url |
http://hdl.handle.net/20.500.12792/5304 http://hdl.handle.net/10261/293182 |
| work_keys_str_mv |
AT montespitafernando modellingcoarsewoodydebrisdynamicsinevenagedscotspineforests AT canellasi modellingcoarsewoodydebrisdynamicsinevenagedscotspineforests |
| _version_ |
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