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Manuscript ID : JEST-1701-3350 (R1) Visit : 160 Page: 107 - 116

10.22034/jest.2020.24479.3350

Article Type: Original Research

The Effect of Sowbug (Hemilepistus shirazi Schuttz) on Soil Infiltrability in a Floodwater Spreading Systems of Gareh Baygone Plain

Subject Areas : Water and Environment

Gholamreza Rahbar 1 , Ataollah Kavian 2 , Ahang Kowsar 3 , Mahmood Habibnejad Rooshan 4 , Kaka Shahedi 5

1 - ‌Research Scientist, Fars Research Centre, Agricultural and Natural resources and Education.*(Corresponding Authours)
2 - Associate professor, Department of Watershed Management , Sari University of Agricultural and Natural Resources
3 - Senior Research Scientist, Fars Research Centre for Agricultural and Natural resources and Education
4 - Professor, Department of Watershed Management , Sari University of Agricultural and Natural Resources
5 - Associate professor, Department of Watershed Management , Sari University of Agricultural and Natural Resources

Received: 2014-11-04 Accepted : 2016-09-11 Published : 2020-01-21

Keywords: crustacean, floodwater spreading, Infiltration, Gareh Bygone,

Abstract :

Background and Objective: Artificial recharge of groundwaterthrough floodwater spreading is an approved method for improvement of groundwater resources. The appearance of sowbug to floodwater spreading system of Gareh Baygon Plain has been changed physic-chemical properties of soil. The main objective of this research is to evaluate soil infiltration rate with activity of sowbugs. Method:This study has been conducted in Kowsar aquifer management of Gareh Bygone plain. One of the floodwater spreading systems named Bisheh Zard1 was selected. This system has 6 sedimentation basins. The second sedimentation basin was chosen and divided to 11 plots. Infiltrability of 11 paired plots was determined utilizing the double ring method. Findings: Results showed that the appearance of sowbug that make hols with 7 milimeter and average one meter depth improve the soil physical properties and enhance the infiltration rate about 7.2 centimetres per hours and showed a significant difference at the 1 % level. The burrowing macro fauna, including the sowbug, form channels that facilitate accelerated flow of water towards the aquifer. Discussion and Conculation: This study approved that sowbug has a great effect on infiltration water to crusted soil that occurs by floodwater spreading. Sowbugs burrows have a marked effect on surface infiltration of water through the soil. The present research state that sowbug can be as useful agent for controlling of crusted soil from fine clay in sedimentation basinsform channels that facilitate accelerated flow of water towards the aquifer and increase the life time of floodwater spreading systems after 30 years and Gareh Bygone Plain desert has been changed to a evergreen forest.  

References:


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    13.

 

 
 



 

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  1. Kowsar, A. Floodwater spreading. Fars Research Center for Agriculture and Natural Resources, 1993 58 p.
    2.
  2. Blanchart, E. 1992. Restoration by earthworms of the macroaggregate structure of the destructured savana, soil under field condition. Journal of Soil Biology & Biochemistry, 24:1587-1595.
    3.
  3. Kowsar, A. 1998. Aquifer management: A key to food security in the deserts of the Islamic Republic of Iran. Journal of Desertification Control Bulletin (UNEP), 33:24-28.
    4.
  4. Gangini, A., M. Farmanara, 1966. Soil Science Report (semi detail). No. 97. Soil Science and Soil Fertility Inistitute. 78 p.
    5.
  5. Nejabat, M. 2009. Decision support system for desertification control through floodwater spreading in Islamic Republic of Iran.Ph.D thesis, UPM, Malaysia, 320 p.
    6.
  6. Kowsar, A. 1991. Floodwater spreading for desertification control: An integrated approach. Journal of Desertification Control Bulletin (UNEP), 19: 3-18.
    7.
  7. Rahimi, H. Morphological and biological characteristics of sowbug. Zeitun: Scientific and Specific Monthly in Agriculture. 115: 36-38. 1993. (in Farsi).
    8.
  8. Teh, C. B. S. and Talib, J. 2006. Soil Physics Analysis. Publisher: Serdang, Selangor University Putra Malaysia Press. 42 p.
    9.
  9. Bouwer, H. 1986. Methods of Soil Analysis. Part 1. Physical and Mineralogical Methods. SSSA Book Series, No 5. Publisher: American Society of Agronomy-Soil Science Society of America, pp. 825- 844.
    10.
  10. 10. FAO/AGL. 2005 The Land and Water Development Division. http://watsagri.nstl.gov.cn/MirrorResources/10004/default.stm.html. Accessed on 21 December.
    11.
  11. Edwards, C. A. and Lofty, R. 1980. The effects of earthworm inocu- lation upon the root growth of direct drilled cereals. Journal of Applied Ecology, 17: 533-543.
    12.
  12. Mando, A., Stroosnijder L. and Brussard L. 1996. Effects of termites on infiltration into crusted soil. Journal of Geoderma, 74:107-113.
    13.

 

 
 



 

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