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Effect of Amelioration of Takyr Solonetzs with FGDG on Rhizosphere Soil Properties and Root Growth of Lycium barbarum

  • Received Date: 2011-07-20
  • In this study, the rhizosphere soil properties of Takyr Solonetzs ameliorated with FGDG, and its effect on root growth of Lycium barbarum were studied. The results indicated that with increasing applications of FGDG, the contents of Na+, K+, Mg2+, Cl-, and HCO3- in rhizosphere soil decreased gradually with the ratio of 51.9%, 16.7%, 42.7%, 44.7% and 28.2%, respectively, while the contents of Ca2+ and SO42- showed an increasing trend and increased by 96.9% and 80.4% compared with those of the CK. As the content of exchangeable Na+ decreased with the increasing application of FGDG, the exchangeable sodium percentage (ESP) and soil pH values decreased from 32.2% and 10.5 to 18.1% and 7.82, respectively and thus the soil physical properties improved. However, the lowest total salt content (2.91 g·kg-1) was found in T2 (2.5 t/(667m2)), and similarly, the highest values of taproot length (44.78 cm), root surface area(179.97 cm2) and root dry weight (17.53 g) were also found in T2, which suggested that applications of FGDG were not always positively correlated with soil reclamation, and excessive amount of FGDG would inhibit root’s growth. Overall, application of FGDG is effective in ameliorating Takyr Solonetzs, but high amount of FGDG would result in excess salts against root growth and subsequently influence production.
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Effect of Amelioration of Takyr Solonetzs with FGDG on Rhizosphere Soil Properties and Root Growth of Lycium barbarum

  • 1. Beijing Forestry University, Beijing 100083, China
  • 2.  R & D Center for New Technology Application, Ningxia University, Yinchuan 750021, Ningxia, China
  • 3. R & D Center for New Technology Application, Ningxia University, Yinchuan 750021, Ningxia, China
  • 4. Department of Thermal Engineering, Tsinghua University, Beijing 100083, China

Abstract: In this study, the rhizosphere soil properties of Takyr Solonetzs ameliorated with FGDG, and its effect on root growth of Lycium barbarum were studied. The results indicated that with increasing applications of FGDG, the contents of Na+, K+, Mg2+, Cl-, and HCO3- in rhizosphere soil decreased gradually with the ratio of 51.9%, 16.7%, 42.7%, 44.7% and 28.2%, respectively, while the contents of Ca2+ and SO42- showed an increasing trend and increased by 96.9% and 80.4% compared with those of the CK. As the content of exchangeable Na+ decreased with the increasing application of FGDG, the exchangeable sodium percentage (ESP) and soil pH values decreased from 32.2% and 10.5 to 18.1% and 7.82, respectively and thus the soil physical properties improved. However, the lowest total salt content (2.91 g·kg-1) was found in T2 (2.5 t/(667m2)), and similarly, the highest values of taproot length (44.78 cm), root surface area(179.97 cm2) and root dry weight (17.53 g) were also found in T2, which suggested that applications of FGDG were not always positively correlated with soil reclamation, and excessive amount of FGDG would inhibit root’s growth. Overall, application of FGDG is effective in ameliorating Takyr Solonetzs, but high amount of FGDG would result in excess salts against root growth and subsequently influence production.

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