Changes in community structure of wood-inhabiting aphyllophoraceous fungi after clear-cutting in a cool temperate zone of Japan: Planted conifer forest versus broad-leaved secondary forest

2012 ◽  
Vol 283 ◽  
pp. 27-34 ◽  
Author(s):  
Satoshi Yamashita ◽  
Tsutomu Hattori ◽  
Hiroshi Tanaka
Keyword(s):  
Community Structure ◽  
Secondary Forest ◽  
Temperate Zone ◽  
Conifer Forest ◽  
Clear Cutting ◽  
Cool Temperate

Drivers of arboreal lichen community structure and diversity on Abies balsamea and Betula alleghaniensis in the Avalon Forest Ecoregion, Newfoundland

Botany ◽  
2021 ◽  
Vol 99 (1) ◽  
pp. 43-54
Author(s):  
Rachel D. Wigle ◽  
Yolanda F. Wiersma ◽  
André Arsenault ◽  
R. Troy McMullin
Keyword(s):  
Community Structure ◽  
Boreal Forests ◽  
Abies Balsamea ◽  
Local Environment ◽  
Lichen Species ◽  
Environmental Data ◽  
Betula Alleghaniensis ◽  
Diverse Range ◽  
Clear Cutting ◽  
Lichen Diversity

There is debate about what drives and maintains the structure of arboreal lichen communities and the relative importance of substrate vs. local environment. Here, we examined which lichen species are unique to two tree species [Abies balsamea (L.) Mill. and Betula alleghaniensis Britton] in the boreal forests of the Avalon Peninsula, Newfoundland, and which environmental variables are most important for lichen colonization and community structure. We collected data on lichen diversity from tree boles along with environmental data (tree size, bark pH, canopy cover) for each tree and each site. Multivariate analyses were used to determine the relationship between community structure and environmental data. The results show that a diverse range of tree characteristics are needed to support a diverse range of lichen species. Certain stands, such as old B. alleghaniensis stands, are more suitable to host a unique community of lichens than others. These results can inform land managers on the Avalon, recommending strategies for protected areas and providing forest harvest guidelines that limit clear-cutting of A. balsamea to maintain a diverse community structure and limit harvest of B. alleghaniensis trees in sites less optimal for lichen growth. These baseline data can also be used to monitor changes caused by moose browse and selective harvesting, two locally important threats to lichen diversity.

scholarly journals Effects of clear-cutting on nitrogen leaching and fine root dynamics in a cool-temperate forested watershed in northern Japan

2006 ◽  
Vol 225 (1-3) ◽  
pp. 257-261 ◽  
Author(s):  
Karibu Fukuzawa ◽  
Hideaki Shibata ◽  
Kentaro Takagi ◽  
Mutsumi Nomura ◽  
Noriko Kurima ◽  
...  
Keyword(s):  
Fine Root ◽  
Nitrogen Leaching ◽  
Forested Watershed ◽  
Root Dynamics ◽  
Fine Root Dynamics ◽  
Clear Cutting ◽  
Cool Temperate ◽  
Northern Japan

Successional dynamics of community structure and species diversity after clear-cutting of faxon fir (Abies faxoniana) forest stands

2014 ◽  
Vol 34 (13) ◽  
Author(s):  
缪宁 MIAO Ning ◽  
周珠丽 Zhou Zhuli ◽  
史作民 SHI Zuomin ◽  
冯秋红 FENG Qiuhong
Keyword(s):  
Community Structure ◽  
Species Diversity ◽  
Forest Stands ◽  
Abies Faxoniana ◽  
Clear Cutting

Land use change in Amazonian Dark Earth and Acrisol: Responses of organic carbon, organic matter composition and microbial carbon utilisation

2020 ◽  
Author(s):  
Klaus Jarosch ◽  
Luis Carlos Colocho Hurtarte ◽  
Konstantin Gavazov ◽  
Aleksander Westphal Muniz ◽  
Christoph Müller ◽  
...  
Keyword(s):  
Land Use ◽  
Organic Matter ◽  
Community Structure ◽  
Microbial Community ◽  
Organic Carbon ◽  
Land Use Change ◽  
Microbial Community Structure ◽  
Secondary Forest ◽  
Soil Types ◽  
Amazonian Dark Earth

<p>The conversion of tropical forest for cassava cultivation is widely known to decrease the soil organic matter (OM) and nutrient contents of highly weathered soils in the tropics. Amazonian Dark Earth (ADE) might be affected less due to their historical anthropogenic amelioration with e.g. charcoal, ceramics and bones, leading to higher soil OM and nutrient concentrations. In this study, we analysed the effect of land use change on the OM dynamics and its composition under tropical conditions, using ADE and an adjacent Acrisol (ACR) as model systems. Soil samples were obtained south of Manaus (Brazil), from a secondary forest and an adjacently located 40-year-old cassava plantation. The land use change induced a severe decrease of organic carbon (OC) concentrations in ADE (from 35 to 15 g OC kg<sup>‑1</sup>) while OC in the adjacent ACR was less affected (18 to 16 g OC kg<sup>‑1</sup>). Soils were analysed by <sup>13</sup>C NMR spectroscopy to obtain information on how the conversion of secondary forest to cassava affected the chemical composition of OM. Our results show that land use change induces differences in the OM composition: The OM in ADE changes to a more decomposed state (increase of alkyl:O/N-alkyl ratio) whereas the OM in ACR changes to a less decomposed state (decrease of alkyl:O/N-alkyl ratio). According to a molecular mixing model, land use change influenced mostly the proportion of lipids, which might be related with a change of the plant input. The incubation of the soils with <sup>13</sup>C glucose enabled resolving how soil microorganisms were affected by land use change. In both soil types ADE and ACR, land use change caused a reduction of the total <sup>13</sup>C glucose respiration by approximately one third in a 7-days incubation, implying lower microbial activity. Microorganisms in both soil types appear to be more readily active in soils under forest, since we observed a distinct lag time between <sup>13</sup>C glucose addition and respiration under cassava planation. This indicated differences in microbial community structure, which we will assess further by determining the <sup>13</sup>C label uptake by the microbial biomass and the microbial community structure using <sup>13</sup>C PLFA analysis. Preliminary results from synchrotron-based STXM demonstrate a distinct arrangement of OM at fine-sized charcoal-particle interfaces. Samples of soils receiving <sup>13</sup>C label will be further analysed by NanoSIMS with the hypothesis that charcoal interfaces foster nutrient dynamics at the microscale. Despite the high loss of OC in the ameliorated ADE through land use change, the remaining OM might improve the nutrient availability thanks to charcoal interactions compared to the ACR. Our results contribute to a better understanding of the sensitivity of OM upon land use change and how the microbial community is responding to land use change in highly weathered tropical soils.</p>

The effects of partial cutting on forest plant communities of western hemlock – Sitka spruce stands in southeast Alaska

2001 ◽  
Vol 31 (12) ◽  
pp. 2067-2079 ◽  
Author(s):  
Robert L Deal
Keyword(s):  
Species Richness ◽  
Community Structure ◽  
Plant Community ◽  
Basal Area ◽  
Plant Species Richness ◽  
Plant Community Structure ◽  
Old Growth ◽  
Partial Cutting ◽  
Southeast Alaska ◽  
Clear Cutting

The effects of partial cutting on plant species richness, community structure, and several understory species that are important for deer forage were evaluated on 73 plots in 18 stands throughout southeast Alaska. These partially cut stands were harvested 12–96 years ago when 16–96% of the former stand basal area was removed. The species richness and community structure of understory plants were similar in uncut and partially cut plots. However, plots where more than 50% of the basal area was cut had a significantly different plant community structure. Species composition and abundance also appeared to be distinctly different between hemlock-dominated and spruce-dominated stands. Partial cutting did not significantly change abundance for most of the important forage species for deer. The similarity in plant community structure between partially cut and uncut old-growth stands may be related to forest stand structures. The heterogeneous stand structures that develop after partial cutting are more similar to old-growth stands than to the uniform young-growth stands that develop after stand replacing disturbances such as clear-cutting.

Nematode communities of anthropogenous birch stands in central Finland

Nematology ◽  
2003 ◽  
Vol 5 (4) ◽  
pp. 629-639 ◽  
Author(s):  
Mika Räty ◽  
Veikko Huhta
Keyword(s):  
Community Structure ◽  
Relative Proportion ◽  
Deciduous Forests ◽  
Managed Forests ◽  
Natural Forests ◽  
Arable Soils ◽  
Nematode Communities ◽  
Clear Cutting ◽  
Forest Sites ◽  
Spruce Stands

Abstract This study compared the nematode communities in anthropogenous birch (Betula pendula) stands of different origin with each other and with natural forests and arable soils at the same latitude in Finland and Scandinavia. Nine forest sites were investigated in central Finland: three birch stands planted ca 30 years prior to the study after the clear-cutting of spruce stands (BS), three birch stands planted ca 30 years earlier on arable soil (BF) and three natural deciduous forests (D). There were clear differences between the birch stands established after spruce forest and after arable cropping, and between these and deciduous forests, but even more between replicates of similarly managed forests. Total numbers, species diversity, and populations of most taxa and feeding groups were the lowest in BF sites. The relative proportion of bacterial feeders and omnivores was higher and that of plant feeders lower in BS than in D sites. The BS sites were relatively similar in community structure to natural deciduous forests, and BF were dissimilar to both, although one deciduous site was similar to one BF site. Non-metric multidimensional scaling ordination placed the three BS sites in one cluster, while the BF sites were clearly separated from these and from each other. Several environmental variables related to soil moisture and acidity contributed to explain the variation in community structure. A hypothesis is suggested that the presence of burrowing earthworms plays a role in regulating populations of nematodes.

Effect of synthetic windbreaks on pasture growth in south-western Victoria, Australia

2002 ◽  
Vol 42 (6) ◽  
pp. 831 ◽  
Author(s):  
P. R. Bird ◽  
T. T. Jackson ◽  
K. W. Williams
Keyword(s):  
Field Experiments ◽  
Temperate Zone ◽  
Wire Mesh ◽  
Seasonal Effect ◽  
Total Production ◽  
Maximum Difference ◽  
Cool Temperate ◽  
The Mean ◽  
Western Victoria ◽  
The Impact

The impact of a synthetic windbreak on the growth of subterranean clover and perennial ryegrass pasture in the cool-temperate zone of south-western Victoria was investigated over 2 years. Four square plots (10 m sides) at each of 2 sites were fenced with wire mesh 1.2 m tall in 1996 and 1997. Two plots at each site were sheltered with synthetic mesh of 50% porosity attached to the wire mesh. The open wind speed averaged 3.6 m/s in 1996 and 3.1�m/s in 1997. Winds exceeded 6 m/s for 4–23% and 2–8% of the time in 1996 and 1997, respectively. There were small but significant differences in temperature between the sheltered and open plots. The mean daily temperature was 0–0.4°C warmer with shelter. Temperatures in the shelters were always higher from 0900 to 1800�hours, the differences ranging from 0.1 to 0.9°C. Conversely, lower temperatures (a maximum difference of 0.4°C) usually occurred in the shelters from 1800 to 0600 hours. The mean daily relative humidity was 1.4–3.1% greater in shelter than in the open and the maximum difference was 3.8%. There was a significant (P< 0.01) effect of shelter on pasture growth in both years. In terms of total production over both years, the results indicate a small but consistent increase in pasture growth of about 9% for sheltered v. open plots at both sites. There was a clear seasonal effect of shelter, with greater production in autumn–winter, and a trend towards greater production in open plots during very wet periods. The results indicate that responses of pasture plants to shelter in the cool-temperate zone of Australia may be modest, and difficult to determine in field experiments, but shelter should contribute significantly to animal production because of improved plant growth in times of scarcity and reduced expenditure of energy for maintenance. Artificial shelters may provide the best means of testing the likely response to shelter of other pasture species or crops.

scholarly journals Determinism and stochasticity in seed dispersal-successional feedbacks

2019 ◽  
Author(s):  
Nohemi Huanca Nuñez ◽  
Robin L. Chazdon ◽  
Sabrina E. Russo
Keyword(s):  
Community Structure ◽  
Seed Dispersal ◽  
Secondary Forest ◽  
Seed Rain ◽  
Secondary Forests ◽  
Forest Fragments ◽  
Mature Forest ◽  
Site Variation ◽  
Tropical Secondary Forest ◽  
Successional Age

AbstractRegeneration of tropical secondary forests depends critically on seed input, and yet successional dynamics of seed dispersal remain poorly understood. We investigated the role of stochastic vs. deterministic processes in structuring seed rain in successional forests using four years of seed rain data collected at two time periods in four tropical secondary forest fragments representing a chronosequence and in mature forest. Determinism in successional trajectories is defined as predictable, directional, and orderly changes in community structure through time, resulting in convergence toward a climax community. We found that with increasing successional age, the community assembly of the seed rain in secondary forests became more deterministic, and community structure converged to that in the mature forest, both in terms of taxonomic and functional composition. Taxonomic similarity of the seed rain in successional forest to that of the mature forest increased with successional age, as did species co-occurrence and the percentage of shared species between the seed rain of successional and mature forests. The proportions of large, shade-tolerant species in the seed rain increased with successional age, although the proportion of animal-dispersed species increased only modestly. Analyses of the spatial variation in community structure in the seed rain among sites within each secondary forest showed evidence that assembly processes transitioned from being deterministic and convergent early on, to purely stochastic, and then to deterministic and divergent later in succession. Moreover, with increasing successional age, the composition of the seed rain became more similar to that of the mature woody stems in the forest, which could be an important deterministic driver of successional change, that, along with among site variation in landscape context and environment, could also generate idiosyncratic successional patterns among secondary forest fragments Our results suggest that the dominant processes influencing seed dispersal and assembly of the seed rain change during succession and point to successional feedbacks influencing the seed rain that are likely to shape regeneration trajectories.

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