The aftermath of tree death: coarse woody debris and the topography in four tropical rain forests

The relationship of coarse woody debris (CWD) was examined with respect to topography and site in four lowland tropical rain forests in northern Borneo and western Ecuador. In total, 1914 dead trees [Formula: see text]20 cm diameter at breast height were enumerated in 46 ha. The basal area per hectare of dead trees varied strongly with both site and slope position. Dead basal area and its correlate dead tree density increased moving up the topographic gradient from the valleys to the ridges. Site estimates for CWD volume ranged from 96 to 154 m3·ha-1. Mean standing CWD volume was four times higher on the ridge tops (54 m3·ha-1) compared with the valley and cross-terrain areas (both 13 m3·ha-1). In contrast, downed volume did not vary with slope position. The proportions of CWD present as standing wood were two to three times higher in the Bornean sites compared with Hoja Blanca. These topographical and site differences in CWD were linked to differences in mode of tree death as well as the distribution of live trees per hectare.

Download Full-text

Resources of dead wood in the municipal forests in Warsaw

Forest Research Papers ◽

10.1515/frp-2015-0031 ◽

2015 ◽

Vol 76 (4) ◽

pp. 322-330 ◽

Cited By ~ 3

Author(s):

Konrad Skwarek ◽

Szymon Bijak

Keyword(s):

National Parks ◽

Coarse Woody Debris ◽

Forest Ecosystems ◽

Dead Wood ◽

Woody Debris ◽

Forest Site ◽

Natural Forests ◽

Dead Trees ◽

Standing Dead ◽

High Degree

Abstract Dead wood plays an important role for the biodiversity of forest ecosystems and influences their proper development. This study assessed the amount of coarse woody debris in municipal forests in Warsaw (central Poland). Based on the forest site type, dominant tree species and age class, we stratified all complexes of the Warsaw urban forests in order to allocate 55 sample plots. For these plots, we determined the volume of dead wood including standing dead trees, coarse woody debris and broken branches as well as uprooted trees. We calculated the amount of dead wood in the distinguished site-species-age layers and for individual complexes. The volume of dead matter in municipal forests in Warsaw amounted to 38,761 m3, i.e. 13.7 m3/ha. The obtained results correspond to the current regulations concerning the amount of dead organic matter to be left in forests. Only in the Las Bielański complex (northern Warsaw) volume of dead wood is comparable to the level observed in Polish national parks or nature reserves, which is still far lower than the values found for natural forests. In general, municipal forests in Warsaw stand out positively in terms of dead wood quantity and a high degree of variation in the forms and dimensions of dead wood.

Download Full-text

The relationship of stand structure with canopy transmittance: Simple models and practical methods for managing understory light conditions in eastern white pine (Pinus strobus L.)-dominated forests

The Forestry Chronicle ◽

10.5558/tfc2014-099 ◽

2014 ◽

Vol 90 (04) ◽

pp. 489-497 ◽

Cited By ~ 5

Author(s):

William C. Parker

Keyword(s):

Stand Structure ◽

Basal Area ◽

Pinus Strobus ◽

Red Pine ◽

Canopy Closure ◽

White Pine ◽

Light Levels ◽

Pine Regeneration ◽

Relationship Of ◽

The Relationship

The relationship of stand structural features with understory light levels, estimated by gap light index (GLI), was investigated in 22 second-growth eastern white (Pinus strobus L.) and red pine (Pinus resinosa Ait.)-dominated stands in central Ontario that encompassed a broad range in density and basal area. Simple, empirical light models were developed to quantify the influence of several stand structural variables on canopy transmittance as estimated by GLI. Models were also derived to facilitate the operational identification of residual basal area, density, and percent canopy closure associated with target understory light levels that optimize the growth of white pine regeneration and its protection from weevil and blister rust when using the uniform shelterwood silvicultural system. Regression models indicated significant negative, nonlinear relationships of GLI with density, basal area, a stand density index, total crown area, and foliar biomass, while GLI was linearly related to percent canopy closure. Application of these models to identify density, basal area, and canopy closure values associated with target light levels for the regeneration and removal cuts of uniform shelterwoods demonstrates the use of this information to help guide management of white pine–red pine forests.

Download Full-text

Coarse woody debris stocks as a function of forest type and stand age in Costa Rican tropical dry forest: long-lasting legacies of previous land use

Journal of Tropical Ecology ◽

10.1017/s0266467410000131 ◽

2010 ◽

Vol 26 (4) ◽

pp. 467-471 ◽

Cited By ~ 19

Author(s):

Lisa B. Kissing ◽

Jennifer S. Powers

Keyword(s):

Coarse Woody Debris ◽

Forest Type ◽

Woody Debris ◽

Empirical Studies ◽

Tropical Dry Forest ◽

Simulation Models ◽

Dry Forest ◽

Stand Age ◽

Dead Trees ◽

Ecological Importance

The ecological importance of trees lasts much longer than their life spans. Standing dead trees (snags) and fallen trunks and branches are an important component of above-ground carbon stocks and nutrient reserves, provide habitat for wildlife, and interact with disturbance regimes (e.g. by serving as fuel for fires) (Clark et al. 2002, Harmon et al. 1986, Pyle et al. 2008). Despite these diverse functions, woody debris stocks remain poorly quantified in tropical forests in general (Brown 1997), and in tropical dry forests in particular (Harmon et al. 1995). More empirical studies of the patterns of woody debris and processes that control its dynamics are needed to understand its role in global biogeochemical cycles and for ecosystem simulation models, many of which do not represent coarse woody debris (CWD) as a separate pool (Cornwell et al. 2009).

Download Full-text

Substrate properties, forest structure and climate influences wood-inhabiting fungal diversity in broadleaved and mixed forests from Northeastern Romania

Forest Systems ◽

10.5424/fs/2020293-16728 ◽

2020 ◽

Vol 29 (3) ◽

pp. e021

Author(s):

Ovidiu Copoț ◽

Cătălin Tănase

Keyword(s):

Snow Cover ◽

Coarse Woody Debris ◽

Fungal Diversity ◽

Woody Debris ◽

Aridity Index ◽

Basal Area ◽

Mean Annual Temperature ◽

Mixed Forests ◽

Fine Woody Debris ◽

Precipitation Seasonality

Aim of the study: The main objective of this study was to find the factors which best explains the wood-inhabiting fungal species’ richness in beech and oak-dominated forests.Area of study: We focused on broadleaved and mixed forests found in Northeastern Romania.Materials and methods: 59 plots were randomly set up in broadleaved and mixed forest stands, in which vegetation structure, composition, and topoclimatic factors were quantified along with wood-inhabiting fungal richness. Generalized linear models were used to characterize relationship between fungal diversity and biotic and abiotic factors.Main results: 374 taxa were identified, with numerous species found to cohabitate, the highest sharing being between Fine Woody Debris and Downed Coarse Woody Debris. The best predictors of total diversity were related to the substrate, management, stand structure, and macroclimate. Higher volumes of logs and large branches in various decay stages increased fungal richness. The same effect was found in diverse forests, with large snags. Macroclimate and topoclimate positively influenced diversity, through De Martonne Aridity Index and snow cover length, both indicating macrofungi preferences for higher moisture of substrate. Silvicultural interventions had an ambivalent effect to fungal diversity, phenomenon observed through stump numbers and proportion.Research highlights: Particular environmental characteristics proved significantly important in explaining different wood-inhabiting fungal richness patterns. Substrate-related variables were the most common ones found, but they were closely linked to climate and forest stand variables.Keywords: Wood-inhabiting fungi; oak, beech and coniferous forests; substrate diversity; dead wood types; coarse woody debris; fine woody debris; climatic variables.Abbreviations used:ALT, elevation; ASPI, Aspect Index; BIO1, mean annual temperature; BIO4, temperature seasonality; BIO7, annual temperature range; BIO12, annual precipitation; BIO15, precipitation seasonality; CWD, coarse woody debris; DBH, diameter at breast height; DCWD, downed coarse woody debris; DCWD_DECAY, DCWD decay diversity; DCWD_DIV, DCWD taxonomic diversity; DCWD_SV, surface-volume ratio of DCWD; DCWD_VOL, DCWD volume; DMAI, De Martonne Aridity Index; DMAI_AU, Autumn DMAI; DMAI_SP, Spring DMAI; DMAI_SU, Summer DMAI; DMAI_WI, Winter DMAI; FAI, Forestry Aridity Index; FWD, fine woody debris; L_SNAG_BA, large snag basal area; OLD_BA, basal area of old trees; POI, Positive Openness Index; RAI, Recent Activity Index; SCL, snow cover length; SLOPE, slope; SNAG_N, snag density; STUMP_N, stump density; TPI, Topographic Position Index; TREE_BA, mean basal area of trees; TREE_DIV, tree' Shannon diversity.

Download Full-text

Acumulación De Restos Lignino-Celulósicos (Necromasa) En Un Bosque Templado De Antiguo Crecimiento Dominado Por Nothofagus En El Centro- Sur De Chile

European Scientific Journal ESJ ◽

10.19044/esj.2016.v12n9p69 ◽

2016 ◽

Vol 12 (9) ◽

pp. 69

Author(s):

Carlos Belezaca Pinargote ◽

Darwin Salvatierra Piloso ◽

Diana Delgado Campusano ◽

Roberto Godoy Bórquez ◽

Eduardo Valenzuela Flores ◽

...

Keyword(s):

Coarse Woody Debris ◽

National Park ◽

Woody Debris ◽

Basal Area ◽

Stem Volume ◽

Decomposition Level ◽

Old Growth ◽

Central Chile ◽

Forest Density ◽

South Central

Coarse woody debris (CWD) are the necromass in wooded environments and comply with various ecosystems functions, such as seedling nursery, habitat other organisms, store carbon (C) and nutrients, etc.. Volume, necromass, and decay states of CWD dead in an old-growth temperate (OGTF) forest in Puyehue National Park, South-Central Chile were evaluated. In 10 plots of 900 m2 CWD was quantified (≥ 10 cm diameter), whose necromass classified using a scale of five categories/stages of decay, necromass (1 = lowest and 5 = highest degradation). The average forest density was 299 trees ha-1, 112 m2 ha-1 of basal area, and 2.395 m3 of stem volume. The upper arboreal stratum was dominated by N. betuloides. The greatest amount of CWD belonged to N. betuloides (95,2%), where logs (52,7%) and branches (35%), plant structures were present in greater numbers. The bulk of necromass found in advanced states of decomposition (level 4 and 5) with 56,5% and 34,1%, respectively. It was determined that the CWD volume was 632 m3 ha-1, representing a necromass of 321.5 Mg ha- 1. These results demonstrate that the old-growth temperate forests of southern Chile are significant reserves of coarse woody debris, which contributes to the biogeochemistry of these complex and remote ecosystems.

Download Full-text

The Effects of a Western Spruce Budworm Outbreak on the Dead Wood Component in Relation to Ownership in Forests of Eastern Oregon

Western Journal of Applied Forestry ◽

10.1093/wjaf/25.4.176 ◽

2010 ◽

Vol 25 (4) ◽

pp. 176-180 ◽

Cited By ~ 4

Author(s):

David Azuma

Keyword(s):

Coarse Woody Debris ◽

Dead Wood ◽

Woody Debris ◽

Spruce Budworm ◽

Western Spruce Budworm ◽

Wood Component ◽

Dead Trees ◽

Standing Dead ◽

Standing Dead Trees ◽

The Dead

Abstract Forest Inventory and Analysis data were used to investigate the effects of a severe western spruce budworm outbreak on the dead wood component of forests in 11 counties of eastern Oregon for two time periods. The ownership and the level of damage (as assessed by aerial surveys) affected the resulting down woody material and standing dead trees. The pattern of coarse woody debris with respect to ownership and management intensity remained consistent into the next 10-year period. Harvesting tended to lower the amount of coarse woody debris on private forests. Federally managed forests had more standing dead trees than private lands, with more in the reserved than nonreserved areas. There was a reduction in the number of standing dead trees between the two periods.

Download Full-text

The importance of coarse woody debris in dynamic phases exposure in the beech (Fagus orientalis L.) stands of Hyrcanian forests

Journal of Forest Science ◽

10.17221/56/2019-jfs ◽

2019 ◽

Vol 65 (No. 10) ◽

pp. 408-422

Author(s):

Vahid Etemad ◽

Mohsen Javanmiri pour ◽

Zeinab Foladi

Keyword(s):

Coarse Woody Debris ◽

Dead Wood ◽

Woody Debris ◽

Average Frequency ◽

Permanent Plots ◽

Evolutionary Stage ◽

Gap Formation ◽

Dead Trees ◽

Significant Difference ◽

Natural Stands

In a natural forest, phases of different dynamics are gradually replaced to create sustainability in the stands. Coarse woody debris is among the most significant structural elements of natural stands that perform an influential position in the identification of dynamic phases. Therefore, the focus of this study is on dead wood conditioning as one of the major structural components in determining the various dynamic phases in the northern forests of Iran as part of the temperate forests. For this study, compartment 326 of Gorazbon District was considered as one of the control parcels of Kheyroud Forest. In this parcel, 25 one-hectare sample plots were selected as permanent plots for a long-term forest structure and succession studies. The coarse woody debris by 100% sampling method was measured. The results showed that there are 8 main phases in this area (gap formation, understorey initiation, stem exclusion, volume accumulation, volume degradation, multiple, lighting, old-growth). The extensive forest area (52%) is located in the understorey initiation and stem exclusion phases. The results also showed that the total average volume of snags and logs was 41.5 m3·ha–1. Furthermore, the mean dead wood volume in decay classes 1, 2, 3 and 4 was 10.33, 12.22, 9.15 and 83.9 m3·ha–1, respectively. The average frequency of dead trees in the diameter classes smaller than 25 cm, 25–50 cm and in the diameter class more than 50 cm is 25.79, 6.93, and 4.88. The significance analysis results obtained by ANOVA test showed that there is a significant difference between volume, snag and log stock and the shape of dead wood in various dynamic phases. Therefore, in general, dead wood in the forest differs according to habitat, evolutionary stage (dynamic phases), standing volume and species diversity of the tree species.

Download Full-text

Quantity and decay stages of coarse woody debris in old-growth subalpine spruce forests of the western Carpathians, Poland

Canadian Journal of Forest Research ◽

10.1139/x06-149 ◽

2006 ◽

Vol 36 (10) ◽

pp. 2614-2622 ◽

Cited By ~ 39

Author(s):

Tomasz Zielonka

Keyword(s):

Coarse Woody Debris ◽

Woody Debris ◽

Time Since Death ◽

Average Volume ◽

Old Growth ◽

Carpathian Mountains ◽

Minimum Diameter ◽

Dead Trees ◽

Class 1 ◽

Cross Dating

The amount and decay stages of dead wood and the residence time of logs was studied in old-growth spruce-dominated stands in the Tatra and Babia Góra in the western Carpathian Mountains in Central Europe. The DBH of living trees and snags as well as the dimensions of logs (with a minimum diameter of 10 cm) were measured on nine sample plots with a pooled area of 4.3 ha. For the logs, the decay stage was identified according to an eight-level decay classification. Dendrochronological cross-dating was applied to 107 wood samples of logs to determine the time since death. The average volume of living trees was 454 m3/ha and the volume of coarse woody debris (CWD) averaged 191 m3/ha. The noted volume of CWD was higher than volumes reported from previous studies in the Carpathian Mountains. On average, CWD made up 30% of the total volume (living plus dead) and varied between 49% and 21% for the stands. The average age of logs for decay class 1 was 13 years and 24, 28, 38, 45, 38, and 60 years for decay classes 2–7, respectively. Considerable variation of time since death between decay classes was probably due to a variable time while dead trees remained standing as snags.

Download Full-text

Do biomass removal and structure-enhancing treatments influence deadwood characteristics following commercial thinning in spruce plantations in New Brunswick, Canada?

Canadian Journal of Forest Research ◽

10.1139/cjfr-2014-0381 ◽

2015 ◽

Vol 45 (10) ◽

pp. 1407-1418 ◽

Cited By ~ 5

Author(s):

Kwadwo Omari ◽

David A. MacLean

Keyword(s):

New Brunswick ◽

Picea Glauca ◽

Woody Debris ◽

Basal Area ◽

Status Quo ◽

Commercial Thinning ◽

Dead Trees ◽

Biomass Removal ◽

The Status ◽

Intensively Managed

Effects of commercial thinning on downed coarse woody debris (CWD) and standing dead trees (snags) were examined in six intensively managed 22- to 30-year-old white spruce (Picea glauca (Moench) Voss) plantations in northern New Brunswick, Canada. Four alternative treatments were applied: (i) an unthinned control and three commercial thinning 40% basal area removals, with (ii) slash and tops remaining on the site (status quo), (iii) most of the branches and tops extracted from the site (biomass removal), and (iv) clumps of unthinned trees left, with one-half of the trees in each clump girdled to create snags (enhanced structure). Three years after thinning, CWD volume increased by 14%–27% in the status quo and enhanced structure treatments, by 6% in the biomass removal treatment, and by 0.1% in the unthinned treatment. Mean snag volume changed little, i.e., less than 1 m3·ha−1 among treatments, and stumps of thinned trees were 4.6–4.9 m3·ha−1. The girdled trees added 0.7 m3·ha−1 of snags, and 1.3 m3·ha−1 is expected to be added from girdling the remaining live trees in the unthinned clumps in 2016. The girdled trees and future to-be-girdled trees added up to 50% of the new deadwood in the enhanced structure treatments, but thinning treatments did not significantly affect total deadwood. The results indicate that commercial thinning produced fine debris but had little effect on overall deadwood amount. Girdling trees during commercial thinning, at the intensity used in this study, is unlikely to produce sufficient snags. Leaving islands and clumps during harvest before plantation establishment would be a more effective way of adding structure.

Download Full-text

Availability and Structure of Coarse Woody Debris in Hemiboreal Mature to Old-Growth Aspen Stands and Its Implications for Forest Carbon Pool

Forests ◽

10.3390/f12070901 ◽

2021 ◽

Vol 12 (7) ◽

pp. 901

Author(s):

Silva Šēnhofa ◽

Guntars Šņepsts ◽

Kārlis Bičkovskis ◽

Ieva Jaunslaviete ◽

Līga Liepa ◽

...

Keyword(s):

Coarse Woody Debris ◽

Woody Debris ◽

Age Groups ◽

High Volume ◽

Carbon Pool ◽

Old Growth ◽

Dead Trees ◽

European Aspen ◽

Saproxylic Species ◽

Mineral Soils

European aspen deadwood is extensively studied as a habitat for saproxylic species, while less is known of its dynamics and role in carbon sequestration. We studied unmanaged mature (41–60 years), moderately overmature (61–80 years), overmature (81–100 years), and old-growth (101–140 years) and managed mature and moderately overmature aspen stands on fertile mineral soils. In unmanaged stands, marginal mean CWD volume was from 67.3 ± 12.1 m3 ha−1 in moderately overmature to 92.4 ± 5.1 m3 ha−1 in old-growth stands, with corresponding marginal mean CWD carbon pool 8.2 ± 1.6 t ha−1 and 12.5 ± 0.7 t ha−1, respectively. Both CWD volume and its carbon pool had substantial yet non-significant differences (all p > 0.05) among the age groups. High CWD volume was present in most stands, by at least two-thirds of plots comprising more than 20 m3 ha−1, and about half of CWD was larger than 30 cm in diameter. Changes in CWD species composition toward a higher proportion of deciduous deadwood in old-growth stands, together with a high volume of recently dead trees, suggest early senescence of the dominant aspen cohort.

Download Full-text