The effect of lichen-dominated biological soil crusts on growth and physiological characteristics of three plant species in a temperate desert of northwest China.

@article{Zhuang2015TheEO,
  title={The effect of lichen-dominated biological soil crusts on growth and physiological characteristics of three plant species in a temperate desert of northwest China.},
  author={Weiwei Zhuang and Marcelo D. Serpe and Y. Zhang},
  journal={Plant biology},
  year={2015},
  volume={17 6},
  pages={
          1165-75
        }
}
Biocrusts (biological soil crusts) cover open spaces between vascular plants in most arid and semi-arid areas. Information on effects of biocrusts on seedling growth is controversial, and there is little information on their effects on plant growth and physiology. We examined impacts of biocrusts on growth and physiological characteristics of three habitat-typical plants, Erodium oxyrhynchum, Alyssum linifolium and Hyalea pulchella, growing in the Gurbantunggut Desert, northwest China. The… 
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16 Citations
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Methods Citations
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16 Citations

Citation Type

Citation Type

Population dynamics of Echinops gmelinii Turcz. at different successional stages of biological soil crusts in a temperate desert in China.
TLDR
It is concluded that B SC succession drives population dynamics of E. gmelinii, primarily via its effect on soil moisture, and the negative effects of BSC succession on population dynamics are primarily driven by increasing topsoil water-holding capacity and decreasing rainwater infiltration into deeper soil.
Biological soil crust and vascular plant interactions in Western Myall ( Acacia papyrocarpa ) open woodland in South Australia
TLDR
Several mechanisms through which BSC has complex effects on the annual and short‐lived perennial plant guilds of arid lands contribute to species diversity through the creation of spatial heterogeneity in soil seed bank structure and emergence opportunities are identified.
Seasonal N uptake strategies in a temperate desert ecosystem depends on N form and plant species.
TLDR
Although the N uptake rate of four desert herbs varied across different soil depths and months, all species absorbed more inorganic N compared with organic N, which possibly reflects adaptation to different N forms in temperate desert.
Effects of artificial vegetation arrangement and structure on the colonization and development of biological soil crusts
The colonization and development of biological soil crusts (BSCs) are rarely discussed when investigating vegetation restoration with difference arrangement and structure of anthropogenically damaged
Soil biocrusts reduce seed germination and contribute to the decline in Artemisia ordosica Krasch. shrub populations in the Mu Us Sandy Land of North China
Composition, structure and productivity of the herbaceous vegetation of five forest stands varying in soil moisture and nitrogen in Central Himalaya, India
Herb layer contributes significantly to the species diversity of forest ecosystem and reacts rapidly to changes in the soil characteristics. Composition, structural parameters and productivity of the
Moss-dominated biocrusts decrease soil moisture and result in the degradation of artificially planted shrubs under semiarid climate
Characteristics of soil moisture under different vegetation coverage in Horqin Sandy Land, northern China
TLDR
The results indicate that VC and soil waterstorage were negatively correlated and the effect of vegetation on soil water storage on the sand dunes was greater in the dry season than the wet season.
Biocrust effects on soil infiltrability in the Mu Us Desert: Soil hydraulic properties analysis and modeling
Abstract The presence of biocrusts changes water infiltration in the Mu Us Desert. Knowledge of the hydraulic properties of biocrusts and parameterization of soil hydraulic properties are important
Soil nutrient stoichiometry on linear sand dunes from a temperate desert in Central Asia
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References

SHOWING 1-10 OF 63 REFERENCES
Germination, survival and growth of three vascular plants on biological soil crusts from a Mexican tropical desert.
TLDR
Results showed that BSC have different effects on germination, seedling survival and growth of plant species, and plant species performance was qualitatively higher on BSC than bare soil.
Seed water status and root tip characteristics of two annual grasses on lichen-dominated biological soil crusts
Biological soil crusts can affect seed germination and seedling establishment. We have investigated the effect of biological soil crusts on seed water status as a potential mechanism affecting seed
Effects of Biological Soil Crusts on Seed Bank, Germination and Establishment of Two Annual Plant Species in the Tengger Desert (N China)
The presence of biological soil crusts can affect the germination and survival of vascular plants, but the reasons are not well investigated. We have conducted a field investigation and greenhouse
Combined effects of nitrogen deposition and water stress on growth and physiological responses of two annual desert plants in northwestern China
Cyanobacteria and cyanolichens: can they enhance availability of essential minerals for higher plants?
TLDR
There is evidence that associated animals may be nutritionally benefited by the enhanced mineral content of forage plants growing in well-developed cyanobacterial crusts.
Photosynthesis and Growth Responses of Parthenocissus quinquefolia (L.) Planch to Soil Water Availability
Photosynthesis and growth characteristics of Parthenocissus quinquefolia were measured under differing soil water availability within a pot. Decreased soil moisture significantly reduced the leaf
NITROGEN CYCLING MEDIATED BY BIOLOGICAL SOIL CRUSTS AND ARBUSCULAR MYCORRHIZAL FUNGI
TLDR
It is demonstrated that plant nitrogen is strongly affected by interactions with mycorrhizal fungi and biological soil crusts, as shown by measurements of nitrogenase activity and natural abundance.
Involvement of antioxidants and lipid peroxidation in the adaptation of two cool-season grasses to localized drought stress.
  • J. Fu, B. Huang
  • Biology, Medicine
    Environmental and experimental botany
  • 2001
Stomatal control and water use efficiency of soybean (Glycine max L. Merr.) during progressive soil drying
The negative effect of biocrusts upon annual-plant growth on sand dunes during extreme droughts
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4
5
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