Soil function can sensitively respond to different canopy composition of Crataegus and Berberis

In order to achieve the optimal use of soil resources,not only the soil function value in research area should be calculated scientifically,but also some practical methods and tools should be researched in planning.The article took five districts of Zhengzhou city as research area,and took functional value indexes data in factor model,then get four main factors,correlation between each other is very weak.According to the factor score,the article analysed how to use the conclusion comprehensively from two aspects: single factor and integrated factor.

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Microbiome of the Rhizosphere: from Structure to Functions

10.21203/rs.3.rs-274143/v1 ◽

2021 ◽

Author(s):

Ning Ling ◽

Tingting Wang ◽

Yakov Kuzyakov

Keyword(s):

Nitrogen Fixation ◽

Microbial Ecology ◽

16S Rdna ◽

N Cycling ◽

Microbial Interactions ◽

Community Diversity ◽

Organic Substances ◽

Microbial Composition ◽

Soil Function ◽

Copiotrophic Bacteria

Abstract Microbial composition and functioning in the rhizosphere are among the most fascinating but hidden topics in microbial ecology. We generalized bacterial traits regarding community diversity, composition and functions using published 16s rDNA amplicon sequences of 584 pairs of bulk soils vs rhizosphere of crops. The lower bacterial diversity in the rhizosphere (-7% richness) compared to root-free soil reflects the excess of available organic substances near the root. The rhizosphere is enriched by Bacteroidetes, Proteobacteria and Cyanobacteria as well as other copiotrophic bacteria (r strategists). Complex but unstable bacterial networks in rhizosphere reflect tight microbial interactions and adaptations to fluctuating conditions common for r strategists. The dominant dormancy strategy in the rhizosphere is the toxin-antitoxin system, while sporulation is common in bulk soil. Function prediction analysis showed that the rhizosphere is strongly enriched (50–115%) in methanol oxidation, ureolysis, cellulolysis, chitinolysis and nitrogen fixation, but strongly depleted in functions related to N-cycling.

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Biochar remediation of soil: linking biochar production with function in heavy metal contaminated soils

Plant Soil and Environment ◽

10.17221/544/2020-pse ◽

2021 ◽

Author(s):

A Taraqqi-A-Kamal ◽

Christopher J. Atkinson ◽

Aimal Khan ◽

Kaikai Zhang ◽

Peng Sun ◽

...

Keyword(s):

Heavy Metal ◽

Soil Remediation ◽

Contaminated Soils ◽

Environmental Issues ◽

Application Rate ◽

Long Term Effects ◽

Soil Function ◽

Soil Functionality ◽

Insight Into

The focus of this study is on the soil physicochemical, biological, and microbiological processes altered by biochar application to heavy metal (HM) contaminated soils. The aim is to highlight agronomical and environmental issues by which the restorative capacity of biochar might be developed. Literature shows biochar can induce soil remediation, however, it is unclear how soil processes are linked mechanistically to biochar production and if these processes can be manipulated to enhance soil remediation. The literature often fails to contribute to an improved understanding of the mechanisms by which biochar alters soil function. It is clear that factors such as biochar feedstock, pyrolysis conditions, application rate, and soil type are determinants in biochar soil functionality. These factors are developed to enhance our insight into production routes and the benefits of biochar in HM soil remediation. Despite a large number of studies of biochar in soils, there is little understanding of long-term effects, this is particularly true with respect to the use and need for reapplication in soil remediation.

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Analysing variety of vegetation indices values using different methods for mapping oil palm closed-canopy composition in southern Riau Province, Indonesia

2012 IEEE International Geoscience and Remote Sensing Symposium ◽

10.1109/igarss.2012.6352232 ◽

2012 ◽

Cited By ~ 3

Author(s):

Fatwa Ramdani

Keyword(s):

Oil Palm ◽

Vegetation Indices ◽

Closed Canopy ◽

Canopy Composition

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Effects of Spruce Plantation (Picea Abies Karst.) On the Soil Function of a Previous Broadleaved Ecosystem: Analytical and Experimental Investigations.

Responses of Forest Ecosystems to Environmental Changes ◽

10.1007/978-94-011-2866-7_161 ◽

1992 ◽

pp. 784-785 ◽

Cited By ~ 3

Author(s):

Jacques Ranger ◽

N. Y. S. Claude

Keyword(s):

Picea Abies ◽

Experimental Investigations ◽

Soil Function

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Forage plant mixture type interacts with soil moisture to affect soil nutrient availability in the short term

Experimental Results ◽

10.1017/exp.2020.47 ◽

2020 ◽

Vol 1 ◽

Author(s):

S. Shepperd ◽

A. Thomson ◽

D. Beaumont ◽

T. Misselbrook ◽

H. Jones ◽

...

Keyword(s):

Soil Moisture ◽

Soil Carbon ◽

Soil Phosphorus ◽

Soil Nutrient ◽

Environmental Benefits ◽

Soil Function ◽

Floral Diversity ◽

Plant Mixture ◽

Soil Functionality ◽

Forage Mixtures

AbstractAgricultural intensification within forage systems has reduced grassland floral diversity by promoting ryegrass (Lolium spp.), damaging soil functionality which underpins critical ecosystem services. Diverse forage mixtures may enhance environmental benefits of pastures by decreasing nutrient leaching, increasing soil carbon storage, and with legume inclusion, reduce nitrogen fertilizer input. This UK study reports on how species-rich forage mixtures affect soil carbon, phosphorus, and nitrogen at dry, medium and wet soil moisture sites, compared to ryegrass monoculture. Increasing forage mixture diversity (from 1 to 17 species) affected soil carbon at the dry site. No effect of forage mixture on soil phosphorus was found, while forage mixture and site did interact to affect soil nitrate/nitrite availability. Results suggest that forage mixtures could be used to improve soil function, but longer-term studies are needed to conclusively demonstrate environmental and production benefits of high-diversity forages.

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