Spatial Variability in Physical Soil Properties in a Pinus koraiensis-Dominated Broadleaved Mixed Forest Gap in Xiao Xing’an Mountains of Northeast China

Locations of sampling points in Pinus koraiensis-dominated broadleaved mixed forest gap in Xiao Xing’an Mountains of Northeast China were determined by grid method. Spatial variability in physical soil properties (PSPs) at those locations in 2 depths of 0–20 cm and 20–40 cm was analyzed by descriptive statistics and geostatistics. The results indicated that soil water content (SWC), saturated moisture capacity, capillary water-holding capacity and porosity were higher in 0–20 cm than in 20–40 cm except for bulk density. PSPs in 0–20 cm had relatively higher ranges and coefficients of variation. The total and autocorrelative spatial heterogeneity in PSPs were larger in 0–20 cm than in 20–40 cm. SWC had a strong anisotropic structure in an easterly and northerly direction, but porosity exhibited isotropy structure in the same directions. With increasing spatial distance, the three other PSPs presented anisotropic structures. Within spatial autocorrelative range, the interactive effect between semivariograms of PSPs in 0–20 cm was not significant. For spatial distribution of PSPs in 2 different depths, the patches with the middle and lower ranks dominated in the forest gap. Patches with higher rank were only distributed in 0–20 cm and were located north of the forest gap.

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Microenvironmental heterogeneity of physical soil properties in a broad-leaved Pinus koraiensis forest gap

Frontiers of Forestry in China ◽

10.1007/s11461-009-0018-2 ◽

2009 ◽

Vol 4 (1) ◽

pp. 38-45 ◽

Cited By ~ 3

Author(s):

Wenbiao Duan ◽

Jing Wang ◽

Yan Li

Keyword(s):

Soil Properties ◽

Pinus Koraiensis ◽

Forest Gap

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Spatiotemporal Heterogeneity in SWC in a Pinus koraiensis-Dominated Broadleaved Mixed Forest Gap in Xiao Xinganling’ Mountains, China

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.610-613.3342 ◽

2012 ◽

Vol 610-613 ◽

pp. 3342-3346

Author(s):

Wen Biao Duan ◽

Li Xia Wang

Keyword(s):

Lower Layer ◽

Mixed Forest ◽

Growing Season ◽

Pinus Koraiensis ◽

Forest Gap ◽

Ne China ◽

Classical Statistics ◽

Higher Rank ◽

Spatiotemporal Heterogeneity ◽

The Difference

Spatiotemporal heterogeneity in SWC within 0-20 cm (upper layer) and 20-40 cm (lower layer) in a Pinus koraiensis-dominated broadleaved mixed forest gap in Xiao Xing’an Mountains of NE China was analyzed by using classical statistics and geographical statistics. The results indicated that the variation regularity in SWC within 0-20 cm was different from that within 20-40 cm during the growing season, the difference in SWC between the two layers reached significant level at P<0.01; the variability degree in SWC within every layer fell into medium variation. Spatiotemporal heterogeneity in SWC occurred with different degree during the study period. Autocorrelative spatial heterogeneity in SWC constituted the main part of total SWC heterogeneity. For SWC spatial distribution within different layer, the patches at medium and lower ranks dominated in forest gap, the patches at higher rank only distributed within 0-20 cm.

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Effects of soil characteristics on forest gap regeneration in different types of natural Pinus koraiensis mixed forest

Acta Ecologica Sinica ◽

10.5846/stxb201605170946 ◽

2017 ◽

Vol 37 (12) ◽

Author(s):

刘少冲 LIU Shaochong ◽

陈立新 CHEN Lixin ◽

段文标 DUAN Wenbiao ◽

张超 ZHANG Chao ◽

李少博 LI Shaobo ◽

...

Keyword(s):

Mixed Forest ◽

Soil Characteristics ◽

Pinus Koraiensis ◽

Forest Gap ◽

Gap Regeneration ◽

Different Types

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Reproductive traits and their correlation among woody plants in a broadleaf-Korean pine (<italic>Pinus koraiensis</italic>) mixed forest in Northeast China

Chinese Science Bulletin (Chinese Version) ◽

10.1360/n972014-00278 ◽

2014 ◽

Vol 59 (24) ◽

pp. 2407-2415 ◽

Cited By ~ 2

Author(s):

YunYun WANG ◽

ZhanQing HAO ◽

Ji YE ◽

Fei LIN ◽

XuGao WANG ◽

...

Keyword(s):

Woody Plants ◽

Northeast China ◽

Mixed Forest ◽

Reproductive Traits ◽

Pinus Koraiensis ◽

Korean Pine

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Differences in the structure, species composition and diversity of primary and harvested forests on Changbai Mountain, Northeast China

Journal of Forest Science ◽

10.17221/84/2009-jfs ◽

2010 ◽

Vol 56 (No. 6) ◽

pp. 285-293 ◽

Cited By ~ 5

Author(s):

Dongkai Su ◽

Dapao Yu ◽

Li Zhou ◽

Xiaokui Xie ◽

Zhenggang Liu ◽

...

Keyword(s):

Species Composition ◽

Northeast China ◽

Vegetation Type ◽

Mixed Forest ◽

Selective Logging ◽

Changbai Mountain ◽

Forest Composition ◽

Pinus Koraiensis ◽

Primary Forest ◽

Logged Forest

Broadleaved-Korean pine (Pinus koraiensis) mixed forest is a typical vegetation type in the eastern Eurasian continent. We compared the structure, composition and diversity of a primary forest and a logged forest for effective management and regeneration of a mixed forest ecosystem on Changbai Mountain, Northeast China. The logged forest was subjected to selective harvesting twenty years ago. The mean diameter and basal area for overall trees (≥ 2 cm dbh) were higher in the primary forest than in the logged forest, whereas overall tree density was significantly lower in the former (994 ± 34 trees∙ha<sup>–1</sup>) than in the logged forest (1921 ± 79 trees∙ha<sup>–1</sup>). The values of species richness and both Simpson's and Shannon's diversity indices for seedlings (< 2 cm dbh, ≥ 50 cm tall), saplings (2−9.9 cm dbh) and overall trees were greater in the primary forest. These results indicate that the selective logging had a lasting impact on the structural characteristics of the forest. There were major differences in species composition between the two forest sites, with the logged forest having more pioneer and mid-tolerant species than the primary forest. Diversity was more extensive in the logged forest due to the invasion of pioneer species. Twenty years is clearly an insufficient time for the logged forest to regain "primary" forest composition and structure. These two characteristics of the primary forest may serve as a reference for developing management plans for forest regeneration.  

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Depletion of atmospheric gaseous elemental mercury by plant uptake at Mt. Changbai, Northeast China

Atmospheric Chemistry and Physics ◽

10.5194/acp-16-12861-2016 ◽

2016 ◽

Vol 16 (20) ◽

pp. 12861-12873 ◽

Cited By ~ 37

Author(s):

Xuewu Fu ◽

Wei Zhu ◽

Hui Zhang ◽

Jonas Sommar ◽

Ben Yu ◽

...

Keyword(s):

Tree Species ◽

Northeast China ◽

Forest Canopy ◽

Mixed Forest ◽

Elemental Mercury ◽

Chemical Oxidation ◽

Deciduous Tree ◽

Pinus Koraiensis ◽

Polar Regions ◽

Gaseous Elemental Mercury

Abstract. There exists observational evidence that gaseous elemental mercury (GEM) can be readily removed from the atmosphere via chemical oxidation followed by deposition in the polar and sub-polar regions, free troposphere, lower stratosphere, and marine boundary layer under specific environmental conditions. Here we report GEM depletions in a temperate mixed forest at Mt. Changbai, Northeast China. The strong depletions occurred predominantly at night during the leaf-growing season and in the absence of gaseous oxidized mercury (GOM) enrichment (GOM  <  3 pg m−3). Vertical gradients of decreasing GEM concentrations from layers above to under forest canopy suggest in situ loss of GEM to forest canopy at Mt. Changbai. Foliar GEM flux measurements showed that the foliage of two predominant tree species is a net sink of GEM at night, with a mean flux of −1.8 ± 0.3 ng m2 h−1 over Fraxinus mandshurica (deciduous tree species) and −0.1 ± 0.2 ng m2 h−1 over Pinus Koraiensis (evergreen tree species). Daily integrated GEM δ202Hg, Δ199Hg, and Δ200Hg at Mt. Changbai during 8–18 July 2013 ranged from −0.34 to 0.91 ‰, from −0.11 to −0.04 ‰ and from −0.06 to 0.01 ‰, respectively. A large positive shift in GEM δ202Hg occurred during the strong GEM depletion events, whereas Δ199Hg and Δ200Hg remained essentially unchanged. The observational findings and box model results show that uptake of GEM by forest canopy plays a predominant role in the GEM depletion at Mt. Changbai forest. Such depletion events of GEM are likely to be a widespread phenomenon, suggesting that the forest ecosystem represents one of the largest sinks ( ∼ 1930 Mg) of atmospheric Hg on a global scale.

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