Seasonal Changes and Vertical Distribution of Fine Root Biomass During Vegetation Restoration in a Karst Area, Southwest China

The vertical distribution of fine-root biomass, its chemical content, and the vertical distribution of overstory root tips were measured in a mature white spruce – subalpine fir stand (Piceaglauca (Moench) Voss – Abieslasiocarpa (Hook.) Nutt.) growing on an infertile sandy soil near Prince George, British Columbia, during July and August, 1975. The study was part of a larger project which described the biomass and chemical content of the tree and minor vegetation. The objective of the project was to provide information on nutrient losses accompanying whole-tree logging and to estimate the possible consequences of such losses for future tree production. Questions concerning the magnitude of the soil nutrient capital available to the vegetation indicated the need for information on the exploitation of the soil by the roots. This paper reports the results of an investigation of the fine roots. Living fine roots (<6.4 mm) of overstory trees and understory plants were sampled separately from 11 soil pits to an average depth of 94 cm. Overstory fine-root biomass was estimated to be about 1870 kg/ha of which 67% was in the forest floor (LFH horizon) and the Ae horizon. The average combined depth of these two horizons was only 8.3 cm, but they contained 88% of the overstory root tips sampled. The 3.3-cm-thick forest floor alone contained half of the fine-root biomass and approximately 70% of the overstory root tips. Understory fine-root biomass was estimated to be about 7880 kg/ha of which 69% was in the forest floor and the Ae horizon. The concentrations of N, P, K, Ca, and Mg generally decreased with increasing depth, while Fe and Al exhibited the opposite pattern.The marked concentration of fine-root biomass and root tips in the forest floor is interpreted as reflecting the very low nutrient status of the mineral soil on the study site. The high value of fine-root biomass for understory vegetation results from the open structure of the stand and is thought to reflect the great importance of this vegetation in nutrient cycling on the study site. The biomass data, together with root chemical concentration data, are consistent with the hypothesis that the forest floor is the major source of several of the macronutrients for the vegetation on the site.

Download Full-text

Effects of soil physicochemical properties and stand age on fine root biomass and vertical distribution of plantation forests in the Loess Plateau of China

Ecological Research ◽

10.1007/s11284-012-0958-0 ◽

2012 ◽

Vol 27 (4) ◽

pp. 827-836 ◽

Cited By ~ 23

Author(s):

Ruiying Chang ◽

Bojie Fu ◽

Guohua Liu ◽

Xueling Yao ◽

Shuai Wang

Keyword(s):

Vertical Distribution ◽

Physicochemical Properties ◽

Loess Plateau ◽

Root Biomass ◽

Fine Root ◽

Fine Root Biomass ◽

Stand Age ◽

Soil Physicochemical Properties ◽

The Loess Plateau ◽

Plantation Forests

Download Full-text

Patterns and relationships of plant traits, community structural attributes, and eco-hydrological functions during a subtropical secondary succession in central Yunnan, Southwest China

Archives of Biological Sciences ◽

10.2298/abs0904741f ◽

2009 ◽

Vol 61 (4) ◽

pp. 741-749 ◽

Cited By ~ 5

Author(s):

Denggao Fu ◽

Changqun Duan ◽

Xiul Hou ◽

Tiyuan Xia ◽

Kai Gao

Keyword(s):

Soil Erosion ◽

Leaf Area ◽

Surface Runoff ◽

Root Biomass ◽

Southwest China ◽

Fine Root ◽

Fine Root Biomass ◽

Hydrological Processes ◽

Litter Biomass ◽

Maximum Water

Human-induced changes in land use lead to major changes in plant community composition and structure which have strong effects on eco-hydrological processes and functions. We here tested the hypothesis that changes in traits of living plants have resulted in changes in structural attributes of the community that influenced eco-hydrological functions by altering eco-hydrological processes. This was done in the context of a subtropical secondary forest suc?cession following land abandonment in Central Yunnan (Southwest China). During the succession, species with high specific leaf area (SLA), high leaf nitrogen concentration (LNC), high specific root length (SRL), and low leaf dry matter content (LDMC) were progressively replaced by species with the opposite characteristics. The obtained results of correlation analyses were as follows: (1) Correlations were significant between community-aggregated SLA, LNC, and the leaf area index (LAI). Significant correlations were detected between LAI, canopy interception and stemflow, and surface runoff and soil erosion. (2) Significant correlations were also found between community-aggregated SLA, LNC, LDMC, and accumulated litter biomass. High accumulated litter biomass strongly increases the maximum water-retaining capac?ity of litter. However, significant correlations were not found between the maximum water-retaining capacity of litter and surface runoff and soil erosion. (3) Correlations were significant between community-aggregated SLA, LNC, and fine root biomass. Fine root biomass was not significantly related to the maximum water-retaining capacity of the soil, but was significantly related to surface runoff and soil erosion. These results suggest that canopy characteristics play a more important role in control of runoff and soil erosion at the studied site. It follows that plant functional traits are closely linked with canopy characteristics, which should be used as a standard for selecting species in restoration and revegetation for water and soil conservation.

Download Full-text

Elevation Distribution of Fine Root Biomass and Soil Organic Carbon Storage of Mature Chinese Fir (Cunninghamia lanceolata) Plantations in East China

Polish Journal of Ecology ◽

10.3161/15052249pje2020.68.1.007 ◽

2020 ◽

Vol 68 (1) ◽

pp. 84

Author(s):

Qin Wang ◽

Zhen Teng ◽

Jingjing Wang ◽

Xinyun Xie ◽

Xiaoniu Xu

Keyword(s):

Organic Carbon ◽

Soil Organic Carbon ◽

Carbon Storage ◽

Root Biomass ◽

Fine Root ◽

Fine Root Biomass ◽

Chinese Fir ◽

Cunninghamia Lanceolata ◽

East China ◽

Organic Carbon Storage

Download Full-text

Effects of thinning on fine root biomass and carbon storage of subalpine Picea asperata plantation in Western Sichuan Province, China

Chinese Journal of Plant Ecology ◽

10.3724/sp.j.1258.2012.00645 ◽

2013 ◽

Vol 36 (7) ◽

pp. 645-654 ◽

Cited By ~ 3

Author(s):

Yun-Ke LIU ◽

Chuan FAN ◽

Xian-Wei LI ◽

Yin-Hua LING ◽

Yi-Gui ZHOU ◽

...

Keyword(s):

Carbon Storage ◽

Root Biomass ◽

Fine Root ◽

Fine Root Biomass ◽

Sichuan Province ◽

Western Sichuan ◽

Picea Asperata

Download Full-text

Response of fine root biomass to changes in spatial heterogeneity of soil moisture and nitrogen in Larix principis-rupprechtii forest

Chinese Journal of Plant Ecology ◽

10.3724/sp.j.1258.2012.00965 ◽

2013 ◽

Vol 36 (9) ◽

pp. 965-972 ◽

Cited By ~ 1

Author(s):

Xiu-Yun YANG ◽

You-Zhi HAN ◽

Xiao-Gang WU

Keyword(s):

Soil Moisture ◽

Spatial Heterogeneity ◽

Root Biomass ◽

Fine Root ◽

Fine Root Biomass

Download Full-text

Fine root biomass and morphology in a temperate forest are influenced more by the nitrogen treatment approach than the rate

Ecological Indicators ◽

10.1016/j.ecolind.2021.108031 ◽

2021 ◽

Vol 130 ◽

pp. 108031

Author(s):

Wen Li ◽

Yifei Shi ◽

Dandan Zhu ◽

Wenqian Wang ◽

Haowei Liu ◽

...

Keyword(s):

Root Biomass ◽

Temperate Forest ◽

Fine Root ◽

Treatment Approach ◽

Fine Root Biomass ◽

Nitrogen Treatment

Download Full-text

Effect of earthworms on mycorrhization, root morphology and biomass of silver fir seedlings inoculated with black summer truffle (Tuber aestivum Vittad.)

Scientific Reports ◽

10.1038/s41598-021-85497-8 ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Tina Unuk Nahberger ◽

Gian Maria Niccolò Benucci ◽

Hojka Kraigher ◽

Tine Grebenc

Keyword(s):

Root System ◽

Root Biomass ◽

Fine Root ◽

Abies Alba ◽

Fine Root Biomass ◽

Root Tip ◽

Silver Fir ◽

Tuber Aestivum ◽

Root Tips ◽

Root Parameters

AbstractSpecies of the genus Tuber have gained a lot of attention in recent decades due to their aromatic hypogenous fruitbodies, which can bring high prices on the market. The tendency in truffle production is to infect oak, hazel, beech, etc. in greenhouse conditions. We aimed to show whether silver fir (Abies alba Mill.) can be an appropriate host partner for commercial mycorrhization with truffles, and how earthworms in the inoculation substrate would affect the mycorrhization dynamics. Silver fir seedlings inoculated with Tuber. aestivum were analyzed for root system parameters and mycorrhization, how earthworms affect the bare root system, and if mycorrhization parameters change when earthworms are added to the inoculation substrate. Seedlings were analyzed 6 and 12 months after spore inoculation. Mycorrhization with or without earthworms revealed contrasting effects on fine root biomass and morphology of silver fir seedlings. Only a few of the assessed fine root parameters showed statistically significant response, namely higher fine root biomass and fine root tip density in inoculated seedlings without earthworms 6 months after inoculation, lower fine root tip density when earthworms were added, the specific root tip density increased in inoculated seedlings without earthworms 12 months after inoculation, and general negative effect of earthworm on branching density. Silver fir was confirmed as a suitable host partner for commercial mycorrhization with truffles, with 6% and 35% mycorrhization 6 months after inoculation and between 36% and 55% mycorrhization 12 months after inoculation. The effect of earthworms on mycorrhization of silver fir with Tuber aestivum was positive only after 6 months of mycorrhization, while this effect disappeared and turned insignificantly negative after 12 months due to the secondary effect of grazing on ectomycorrhizal root tips.

Download Full-text