Halophyte residue decomposition and microbial community structure in coastal soil

Chaudhary, Doongar R.; Rathore, Aditya P.; Jha, Bhavanath

doi:10.1002/ldr.3335

Cited by 2 publications

(1 citation statement)

References 60 publications

(131 reference statements)

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“…In addition, the nitrogen in slightly saline soil was obviously higher than that of heavily saline soil. The water and hot resources in the coastal area are richer than in arid area, which makes it easier to accumulate nutrition in natural desalination situations; there are also many halophytes grown in in situ soil [44,45]. The salinity of the coastal ecosystem may slow down the halophyte residue decomposition processes in soil and thereby may increase the nutrition elements sequestration potential.…”

Section: Nitrogen Input Regulation In Desalinated Slightly Saline Soilmentioning

confidence: 99%

Saline–Alkaline Characteristics during Desalination Process and Nitrogen Input Regulation in Reclaimed Tidal Flat Soils

et al. 2023

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Coastal salt-affected soils account for a large area all around the world. Soil salinity and pH are two important parameters affecting soil quality. Investigating the correlation of electrical conductivity (EC) and pH at different soil depths in saline soil was useful for quickly assessing the saline–alkaline characteristics. During the natural desalination process in the field area of reclaimed lands, the phenomena of pH increase and nitrogen accumulation may occur. A field sampling experiment was conducted in slightly saline soil affected by natural desalination and newly reclaimed heavily saline soil. A series of soil–water ratio extracts consisting of 1:2.5, 1:5, 1:10, 1:20, and 1:40 was designed to measure the EC and pH for simulating the saline–alkaline characteristics during the soil desalination process. Meanwhile, for reasonable utilization of the naturally ameliorated slightly saline soil which consists of a high content of nitrogen, a plastic mulching (PM) accompanied with nitrogen (N) fertilizer addition experiment in maize cultivation plots was designed. Results showed that a significant correlation of EC and/or pH existed in all ratios of soil extracts, and the slightly saline soil had a higher nitrogen content (1.06 g kg−1). The EC was negatively correlated with pH at a depth of 0~100 cm in the coastal saline soil, which indicated the increase of pH value and alkalization during its natural desalination. Furthermore, PM treatments showed no significant difference with N treatments in soil bulk density and soil water content in the slightly saline soil. The PM and N treatments obtained similar grain yield, which was between 6.2 and 6.5 t ha−1. The soil salinity decreased in all treatments and the harvest index was largest in PM treated plots. Our study was beneficial for rapidly monitoring saline–alkaline characteristics and sustainable utilization of coastal saline soil resources. In addition, we should focus far more on pH improvement during the desalination process and rational utilization of chemical fertilizer for obtaining sustainable benefits in the coastal saline soil.

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Section: Nitrogen Input Regulation In Desalinated Slightly Saline Soilmentioning

confidence: 99%

Saline–Alkaline Characteristics during Desalination Process and Nitrogen Input Regulation in Reclaimed Tidal Flat Soils

et al. 2023

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Bacterial community demonstrates stronger network connectivity than fungal community in desert-grassland salt marsh

Pan

Kang

et al. 2021

Science of The Total Environment

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Halophyte residue decomposition and microbial community structure in coastal soil

Cited by 2 publications

References 60 publications

Saline–Alkaline Characteristics during Desalination Process and Nitrogen Input Regulation in Reclaimed Tidal Flat Soils

Saline–Alkaline Characteristics during Desalination Process and Nitrogen Input Regulation in Reclaimed Tidal Flat Soils

Bacterial community demonstrates stronger network connectivity than fungal community in desert-grassland salt marsh

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