8 results
Search Results
2. Testing the significance of different tree spatial distribution patterns based on the uniform angle index.
- Author
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Zhao, Zhonghua, Hui, Gangying, Hu, Yanbo, Wang, Hongxiang, Zhang, Gongqiao, and von Gadow, Klaus
- Subjects
FOREST biodiversity ,PLANT species ,PLANT classification ,FORESTS & forestry ,FOREST management - Abstract
Copyright of Canadian Journal of Forest Research is the property of Canadian Science Publishing and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)
- Published
- 2014
- Full Text
- View/download PDF
3. Floristic composition, growth temperament and conservation status of woody plant species in the Cameroonian tropical rainforests.
- Author
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Kengne, Olivier Clovis, Feukeng, Samuel Severin Kenfack, Ngansop, Eric Tchatchouang, Meyan-ya, Raissa Gwladys Daghela, and Zapfack, Louis
- Subjects
RAIN forests ,PLANT species ,ENDANGERED species ,WOODY plants ,FOREST biodiversity ,FOREST management - Abstract
Introduction: Cameroon's tropical rainforests are nowadays strewn with rural forests maintained by local populations; however, these forests are not officially recognized in the non-permanent forest domain. Rural forests are non-delimited riparian areas within the dense moist forest, reserved for rural housing, agricultural activities and agroforestry practices, freely exploited by the local communities for their livelihood without them having any rights to artisanal and commercial logging. This study aimed at contributing to the flora knowledge and the conservation state of woody plant species in rainforests. The study was carried out in two rural forests located in the Eastern and Southern agroforestry zones of Cameroon. Methods: The method adopted for floristic inventories combined a fixed area sampling unit and a variable area sampling unit. Woody individuals with diameter at breast height (dbh) < 3.2 cm were counted and shrubs of 3.2 ≤ dbh < 10 cm were measured to analyse the understorey, while trees with dbh ≥ 10 cm were measured and identified to characterize the canopy. Results: In the Essiengbot-Mbankoho rural forest in Eastern Cameroon, 468 species belonging to 61 families were recorded in the understory while 227 species belonging to 53 families were identified at the canopy level. A total of 40 (7.68%) threatened species, 18 (3.45%) Near Threatened species and 408 (78.31%) Least Concern species were recorded. In the Nbgwassa-Opkweng rural forest in Southern Cameroon, 534 species belonging to 64 families were identified in the understory while 225 species belonging to 43 families were recorded in the canopy. A total of 54 (9.69%) threatened species, 25 (4.49%) Near Threatened species and 421 (75.58%) Least Concern species were identified in this forest. Shannon's diversity indices were above five in the understories and canopies of both forests. Shade-bearer species were the most represented in the understories while the non-pioneer light-demanding and shade-bearer species were the most abundant in the canopies. Conclusions: Despite the influence of slash-and-burn agriculture and subsistence farming practices, rural forests managed by local populations provide opportunities for preserving plant biodiversity. However, the presence of threatened species, pioneer species and non-pioneer light-demanding species in these forests is an indicator of moderate and man-induced disturbances that, in the absence of a forest management plan or sustainable management, may threaten this biodiversity. Legal management of rural forests could help in limiting the anthropogenic activities and pressures on community forests. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
4. Plant diversity and community analysis of Sele-Nono forest, Southwest Ethiopia: implication for conservation planning.
- Author
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Kefalew, Alemayehu, Soromessa, Teshome, and Demissew, Sebsebe
- Subjects
BIOSPHERE reserves ,FOREST management ,PLANT diversity ,PLANT communities ,SPECIES diversity ,FOREST biodiversity ,PLANT species - Abstract
Background: Studying the floristic diversity of a certain forest is a basic aspect of the design and management of forest vegetation; and consequently this study focused on the plant diversity and community analysis of the Sele-Nono forest. For the current study, plants were sampled from 90 plots using a stratified random sampling technique along the established strata of the study forest. In all the plots, both floristic and environmental data that were relevant to the study were collected following the state of the art. Based on the collected data, the community types, ordination, floristic diversity, and threats to the forest were analyzed using R-package and SPSS software. Results: Cluster analysis produced seven distinct community types which significantly differed among themselves (Cophentic correlation coefficient = 0.785, P < 0.001) of which community types 2 and 6 were relatively poor; whereas communities 1 and 4 were rich in terms of their species richness and diversity. In addition, Canonical Correspondence Analysis (CCA) suggests that a number of environmental factors such as altitude and slope (topographic factor), OM and N (edaphic factors) and disturbance were the main drivers for the current distribution of plant species and disparity in plant community composition in Sele-Nono forest. Moreover, the study revealed high beta diversity ( β w >12) of plant species at the landscape level (i.e., throughout the study forest). Deforestation for agricultural land expansion and degradation through selective logging are the main threats to the Sele-Nono forest. Conclusions: The present study revealed that the Sele-Nono forest is a large and heterogenous forest at the landscape level (150, 325.27 ha; β w >12). Moreover, it is one of the richest and diverse forest ecosystems in terms of plant biodiversity, and it could qualify to be labeled as a keystone ecosystem. However, currently it is exposed to a variety of threats. We recommend the forest to be developed into a biosphere reserve. We also recommend the prioritization of areas belonging to community types 2 and 6 of the forest for any possible conservation actions so as to maximize species richness and diversity of the native plants of the area. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
5. Spatial structure of managed beech-dominated forest: applicability of nearest neighbors indices.
- Author
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Szmyt, Janusz
- Subjects
- *
EUROPEAN beech , *FOREST management , *FOREST biodiversity , *PLANT size , *PLANT species , *PLANT growth - Abstract
High structural diversity is often attributed to old-growth forests, usually established naturally and unmanaged. Forest diversity should be considered not only in terms of species diversity and richness but also the variation in trees dimension and their spatial distribution have to be taken into consideration. The main goal of this paper was the answer if nearest neighbor indices are suitable for spatial forest structure description. To answer this question results obtainedfrom 3 managedbeech-d ominatedforests from natural regeneration are presented and discussed. The following indices were calculated: Clark-Evans aggregation index (R), DBH andheight differentiation indices (TD and TH, respectively) andmingling index (DM) analyzing horizontal and vertical spatial structure of the forest. Results indicated that managed beech forests demonstratedrather homogenous spatial structure in both aspects. Living trees as well as future crop trees were mostly regularly distributed. Spatial variation in DBH and height between living nearest neighbors was rather low. The lowest variation in sizes was demonstrated by future crop trees. Mature beech forests revealed single species structure andother tree species - if present - were spatially segregatedfrom beech. It can be supposed that high homogeneity structure of these forests results from biological characteristics of this species as well as thinning treatments conducted by foresters. [ABSTRACT FROM AUTHOR]
- Published
- 2012
6. Multi-species Planting and Other Practices to Restore Forest Diversity in Northeastern Minnesota.
- Author
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Vora, Robin S., Lerol, Steven, and Danz, Nicholas P.
- Subjects
FOREST biodiversity ,PLANT species ,REFORESTATION ,RESTORATION ecology ,FOREST restoration ,FOREST management ,VEGETATION & climate ,ANIMAL species - Abstract
Forest stand diversification in terms of plant species and spacing of plantings is critical to restoring components of native forests, reducing risks of insect and disease outbreaks, and providing a variety of habitats for native birds and other forest animals. We share the results of experimentation with reforestation practices to achieve more diverse upland forests in northeastern Minnesota. We also share the results of a study to determine the impact of site preparation (rock raking) and seedling "release" (removing competing surrounding vegetation after two years) on survival and height of 19 native trees and shrubs. After five years, seedling survival across the 19 species ranged from 31% to 94%, with mean of 72%. Survival was higher for sites receiving the preparation treatment (76%) than for those not receiving the treatment (68%). Site preparation significantly increased seedling height for eight species. In year three of the study we removed nearby competing vegetation (release treatment), which resulted in significantly greater seedling height for two species and less height growth for three species after two years. We discuss the value of increases in survival and height in the context of overall forest management objectives and other management strategies to diversify forest species and structure. [ABSTRACT FROM AUTHOR]
- Published
- 2008
- Full Text
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7. Establishment success in a forest biodiversity and ecosystem functioning experiment in subtropical China (BEF-China).
- Author
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Yang, Xuefei, Bauhus, Jürgen, Both, Sabine, Fang, Teng, Härdtle, Werner, Kröber, Wenzel, Ma, Keping, Nadrowski, Karin, Pei, Kequan, Scherer-Lorenzen, Michael, Scholten, Thomas, Seidler, Gunnar, Schmid, Bernhard, Oheimb, Goddert, and Bruelheide, Helge
- Subjects
FOREST biodiversity ,FOREST management ,TREE farms ,PLANT species ,FOREST conservation - Abstract
Experimental forest plantations to study biodiversity-ecosystem functioning (BEF) relationships have recently been established in different regions of the world, but subtropical biomes have not been covered so far. Here, we report about the initial survivorship of 26 tree species in the first such experiment in subtropical China. In the context of the joint Sino-German-Swiss Research Unit 'BEF-China,' 271 experimental forest plots were established using 24 naturally occurring tree species and two native commercial conifers. Based on the survival inventories carried out in November 2009 and June 2010, the overall survival rate was 87 % after the first 14 months. Generalized mixed-effects models showed that survival rates of seedlings were significantly affected by species richness, the species' leaf habit (deciduous or evergreen), species identity, planting date, and altitude. In the first survey, seedling establishment success decreased with increasing richness levels, a tendency that disappeared in the second survey after replanting. Though evergreen species performed less well than deciduous species with establishment rates of 84 versus 93 % in the second survey, their planting success exceeded the general expectation for subtropical broad-leaved evergreen species. These results have important implications for establishing mixed-species plantations for diversity conservation and improvement of ecosystem functioning in the Chinese subtropics and elsewhere. Additional costs associated with mixed-species plantations as compared to conventional plantations also demonstrate the potential of upscaling BEF experiments to large-scale afforestation projects. [ABSTRACT FROM AUTHOR]
- Published
- 2013
- Full Text
- View/download PDF
8. Comparing Effects of Climate Warming, Fire, and Timber Harvesting on a Boreal Forest Landscape in Northeastern China.
- Author
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Li, Xiaona, He, Hong S., Wu, Zhiwei, Liang, Yu, and Schneiderman, Jeffrey E.
- Subjects
FOREST management ,LANDSCAPE protection ,TAIGAS ,ENERGY harvesting ,PLANT species ,FOREST biodiversity ,AGE of plants ,COMPARATIVE studies - Abstract
Forest management under a changing climate requires assessing the effects of climate warming and disturbance on the composition, age structure, and spatial patterns of tree species. We investigated these effects on a boreal forest in northeastern China using a factorial experimental design and simulation modeling. We used a spatially explicit forest landscape model (LANDIS) to evaluate the effects of three independent variables: climate (current and expected future), fire regime (current and increased fire), and timber harvesting (no harvest and legal harvest). Simulations indicate that this forested landscape would be significantly impacted under a changing climate. Climate warming would significantly increase the abundance of most trees, especially broadleaf species (aspen, poplar, and willow). However, climate warming would have less impact on the abundance of conifers, diversity of forest age structure, and variation in spatial landscape structure than burning and harvesting. Burning was the predominant influence in the abundance of conifers except larch and the abundance of trees in mid-stage. Harvesting impacts were greatest for the abundance of larch and birch, and the abundance of trees during establishment stage (1–40 years), early stage (41–80 years) and old- growth stage (>180 years). Disturbance by timber harvesting and burning may significantly alter forest ecosystem dynamics by increasing forest fragmentation and decreasing forest diversity. Results from the simulations provide insight into the long term management of this boreal forest. [ABSTRACT FROM AUTHOR]
- Published
- 2013
- Full Text
- View/download PDF
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