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Soil, land care and environmental research
RESEARCH ARTICLE

Soil physical properties and soil water tension monitoring by wireless sensor network after reservoir and minimum tillage practices

Haytham Mohamed Salem https://orcid.org/0000-0002-8519-7601 A C , Miguel-Ángel Muñoz-García B and María Gil Rodríguez B
+ Author Affiliations
- Author Affiliations

A Key Laboratory of Digital Land and Resources, East China University of Technology, Nanchang, 330013 Jiangxi, P.R. China.

B Universidad Politécnica de Madrid. Dep. Ing. Agroforestal. LPF-TAGRALIA. Avenida Complutense s/n,28040, Madrid, Spain.

C Corresponding author. Email: eng_haytham1982@yahoo.com; haytham1982@ecit.cn

Soil Research 59(3) 309-317 https://doi.org/10.1071/SR20129
Submitted: 6 May 2020  Accepted: 10 October 2020   Published: 23 November 2020

Abstract

Rain-fed agriculture in central Spain is mostly water limited. Reservoir tillage (RT) can increase soil water content, thus helping overcome most factors limiting crop production in this region. The aim of this study was to investigate the short-term effects of two tillage practices on soil physical properties and water availability where rain-fed barley was being grown. A field experiment was established on a loamy soil for comparing RT and minimum tillage (MT). Bulk density and volumetric water content were measured in 5-cm increments to a depth of 30 cm. The soil water tension was monitored using a wireless sensor network with sensors at 10, 20, and 30 cm depths. The results showed that bulk density in RT and MT treatments at all soil depths were statistically similar. However, soil water tensions in the MT treatment were substantially higher than that in RT in the entire observation period at all depths. In conclusion, RT could be used to minimise risks from crop failure during the poorer rainy seasons, and it showed increased soil water retention and improved barley yield.

Keywords: barley yield, bulk density, precipitation use efficiency, tillage practices.


References

Blake GR (1965) Bulk density. In ‘Methods of soil analysis. Part I physical and mineralogical properties.’ (Ed CA Black) pp. 374–390. (SSSA Inc; Madison, WI, USA)

Buratti C, Conti A, Dardari D, Verdone R (2009) An overview on wireless sensor networks technology and evolution. Sensors 9, 6869–6896.
An overview on wireless sensor networks technology and evolution.Crossref | GoogleScholarGoogle Scholar | 22423202PubMed |

Cardell-Oliver R, Smettem K, Kranz M, Mayer K (2005) A reactive soil moisture sensor network: design and field evaluation International Journal of Distributed Sensor Networks 1, 149–162.
A reactive soil moisture sensor network: design and field evaluationCrossref | GoogleScholarGoogle Scholar |

Chen Y, Cavers C, Tessier S, Monero F, Lobb D (2005) Short-term tillage effects on soil cone index and plant development in a poorly drained, heavy clay soil. Soil & Tillage Research 82, 161–171.
Short-term tillage effects on soil cone index and plant development in a poorly drained, heavy clay soil.Crossref | GoogleScholarGoogle Scholar |

Cichota R, Hurtado ALB, Lier QJ (2006) Spatio-temporal variability of soil water tension in a tropical soil in Brazil. Geoderma 133, 231–243.
Spatio-temporal variability of soil water tension in a tropical soil in Brazil.Crossref | GoogleScholarGoogle Scholar |

Danielson RE, Sutherland PL (1986) Porosity. In ‘Methods of soil analysis. Part I. Physical and mineralogical methods’. Agronomy Monographs 9. (Ed A Klute) pp. 443–461. (American Society of Agronomy, Soil Science Society of America: Madison, WI, USA)

Díaz SE, Pérez JC, Mateos AC (2011) A novel methodology for the monitoring of the agricultural production process based on wireless sensor networks. Computers and Electronics in Agriculture 76, 252–265.
A novel methodology for the monitoring of the agricultural production process based on wireless sensor networks.Crossref | GoogleScholarGoogle Scholar |

Dinh NT, Kim Y (2019) Auto-configuration in wireless sensor networks: a review. Sensors 19, 4281
Auto-configuration in wireless sensor networks: a review.Crossref | GoogleScholarGoogle Scholar |

Drewry JJ, Paton RJ, Monaghan RM (2004) Soil compaction and recovery cycle on a Southland dairy farm: implications for soil monitoring. Australian Journal of Soil Research 42, 851–856.
Soil compaction and recovery cycle on a Southland dairy farm: implications for soil monitoring.Crossref | GoogleScholarGoogle Scholar |

Drewry JJ, McNeill SJ, Carrick S, Lynn IH, Eger A, Payne J, Rogers G, Thomas SM (2019) Temporal trends in soil physical properties under cropping with intensive till and no-till management. New Zealand Journal of Agricultural Research
Temporal trends in soil physical properties under cropping with intensive till and no-till management.Crossref | GoogleScholarGoogle Scholar |

FAO (1988) ‘Revised legend of the FAO_UNESCO soil map of the world.’ World Soils Resources Report, No. 60. (FAO/UNESCO/ISRIC, Rome)

Guzha AC (2004) Effect of tillage on soil microrelief, surface depression storage and soil water storage. Soil & Tillage Research 76, 105–114.
Effect of tillage on soil microrelief, surface depression storage and soil water storage.Crossref | GoogleScholarGoogle Scholar |

Hackwell SG, Rochester EW, Yoo KH, Burt EC, Monroe GE (1991) Impact of reservoir tillage on water intake and soil erosion. Transactions of the ASAE. American Society of Agricultural Engineers 34, 0436–0442.
Impact of reservoir tillage on water intake and soil erosion.Crossref | GoogleScholarGoogle Scholar |

Hanson BR, Orloff S, Peters D (2000) Monitoring soil moisture helps refine irrigation management. California Agriculture 54, 38–42.
Monitoring soil moisture helps refine irrigation management.Crossref | GoogleScholarGoogle Scholar |

Hanson BR, May DM, Schwankl LJ (2003) Effect of irrigation frequency on subsurface drip irrigated vegetables. HortTechnology 13, 115–120.
Effect of irrigation frequency on subsurface drip irrigated vegetables.Crossref | GoogleScholarGoogle Scholar |

IAEA (International Atomic Energy Agency) (2008) ‘Field estimation of soil water content. A practical guide to methods, instrumentation and sensor technology.’ TCS-30. (IAEA: Vienna)

Intrigliolo DS, Castel JR (2004) Continuous measurement of plant and soil water status for irrigation scheduling in plum. Irrigation Science 23, 93–102.
Continuous measurement of plant and soil water status for irrigation scheduling in plum.Crossref | GoogleScholarGoogle Scholar |

Jena PR (2019) Can minimum tillage enhance productivity? Evidence from smallholder farmers in Kenya. Journal of Cleaner Production 218, 465–475.
Can minimum tillage enhance productivity? Evidence from smallholder farmers in Kenya.Crossref | GoogleScholarGoogle Scholar |

Karuku GN, Gachene CKK, Karanja N, Cornelis W, Verplancke H, Kironchi G (2012) Soil hydraulic properties of a nitisol in Kabete, Kenya. Tropical and Subtropical Agroecosystems 15, 595–609.

Kronen M (1994) Water harvesting and conservation techniques for small-holder crop production. Soil & Tillage Research 32, 71–86.
Water harvesting and conservation techniques for small-holder crop production.Crossref | GoogleScholarGoogle Scholar |

Licht MA, Al-Kaisi M (2005) Strip-tillage effect on seedbed soil temperature and other soil physical properties. Soil & Tillage Research 80, 233–249.
Strip-tillage effect on seedbed soil temperature and other soil physical properties.Crossref | GoogleScholarGoogle Scholar |

McHugh OV, Steenhuis TS, Abebe B (2007) Performance of in situ rainwater conservation tillage techniques in dry spell mitigation and erosion control in the drought-prone North Wello zone of the Ethiopian highlands. Soil & Tillage Research 97, 19–36.
Performance of in situ rainwater conservation tillage techniques in dry spell mitigation and erosion control in the drought-prone North Wello zone of the Ethiopian highlands.Crossref | GoogleScholarGoogle Scholar |

McVay KA, Budde JA, Fabrizzi K, Mikha MM, Rice CW, Schlegel AJ, Peterson DE, Sweeney DW, Thompson C (2006) Management effects on soil physical properties in long-term tillage studies in Kansas. Soil Science Society of America Journal 70, 434–438.
Management effects on soil physical properties in long-term tillage studies in Kansas.Crossref | GoogleScholarGoogle Scholar |

Moreira WH, Tormena CA, Karlen DL, da Silva ÁP, Keller T, Betioli E (2016) Seasonal changes in soil physical properties under long-term no-tillage. Soil & Tillage Research 160, 53–64.
Seasonal changes in soil physical properties under long-term no-tillage.Crossref | GoogleScholarGoogle Scholar |

Mrabet R (2002) Stratification of soil and organic matter under tillage systems in Africa. Soil & Tillage Research 66, 119–128.
Stratification of soil and organic matter under tillage systems in Africa.Crossref | GoogleScholarGoogle Scholar |

Mupangwa W, Twomlow S, Walker S, Hove L (2007) Effect of minimum tillage and mulching on maize (Zea mays L.) yield and water content of clayey and sandy soils. Physics and Chemistry of the Earth 32, 1127–1134.
Effect of minimum tillage and mulching on maize (Zea mays L.) yield and water content of clayey and sandy soils.Crossref | GoogleScholarGoogle Scholar |

Ngigi SN, Rockstrom J, Savenije HHG (2006) Assessment of rainwater retention in agricultural land and crop yield increase due to conservation tillage in Ewaso Ngiro River basin, Kenya. Physics and Chemistry of the Earth 31, 910–918.
Assessment of rainwater retention in agricultural land and crop yield increase due to conservation tillage in Ewaso Ngiro River basin, Kenya.Crossref | GoogleScholarGoogle Scholar |

Nolz R, Kammerer G, Cepuder P (2013) Calibrating soil water potential sensors integrated into a wireless monitoring network. Agricultural Water Management 116, 12–20.
Calibrating soil water potential sensors integrated into a wireless monitoring network.Crossref | GoogleScholarGoogle Scholar |

Patrick C, Kechavarzi C, James IT, Dogherty MO, Godwin RJ (2007) Developing reservoir tillage technology for semi-arid environments. Soil Use and Management 23, 185–191.
Developing reservoir tillage technology for semi-arid environments.Crossref | GoogleScholarGoogle Scholar |

Rochester EW, Hill DT, Yoo KH (1994) Impact of reservoir tillage on runoff quality and quantity. Transactions of the ASAE. American Society of Agricultural Engineers 37, 1183–1186.
Impact of reservoir tillage on runoff quality and quantity.Crossref | GoogleScholarGoogle Scholar |

Rusu T (2014) Energy efficiency and soil conservation in conventional, minimum tillage and no-tillage. International Soil and Water Conservation Research 2, 42–49.
Energy efficiency and soil conservation in conventional, minimum tillage and no-tillage.Crossref | GoogleScholarGoogle Scholar |

Salem HM, Valero C, Muñoz MA, Rodríguez MG, Barreiro P (2014) Effect of reservoir tillage on rainwater harvesting and soil erosion control under a developed rainfall simulator. Catena 113, 353–362.
Effect of reservoir tillage on rainwater harvesting and soil erosion control under a developed rainfall simulator.Crossref | GoogleScholarGoogle Scholar |

Salem HM, Valero C, Muñoz MA, Rodríguez MG (2015) Effect of integrated reservoir tillage for in-situ rainwater harvesting and other tillage practices on soil physical properties. Soil & Tillage Research 151, 50–60.
Effect of integrated reservoir tillage for in-situ rainwater harvesting and other tillage practices on soil physical properties.Crossref | GoogleScholarGoogle Scholar |

Sánchez-Girón V, Serrano A, Hernanz JL, Navarrete L (2004) Economic assessment of three long-term tillage systems for rainfed cereal and legume production in semiarid central Spain. Soil & Tillage Research 78, 35–44.
Economic assessment of three long-term tillage systems for rainfed cereal and legume production in semiarid central Spain.Crossref | GoogleScholarGoogle Scholar |

Sharma P, Abrol V, Sharma KR, Sharma N, Phogat VK, Vikas V (2016) Impact of conservation tillage on soil organic carbon and physical properties–a review. International Journal of Bio-resource and Stress Management 7, 151–161.
Impact of conservation tillage on soil organic carbon and physical properties–a review.Crossref | GoogleScholarGoogle Scholar |

Shock CC, David RJ, Shock CA, Kimberling CA (1999) Innovative, automatic, low-cost reading of Watermark soil moisture sensors. In ‘Proceedings of the 1999 Irrigation Association Technical Conference’. pp. 147–152. (The Irrigation Association, Falls Church, VA, USA)

Sohrabi K, Gao J, Ailawadhi V, Pottie GJ (2000) rotocols for self-organization of a wireless sensor network. IEEE Personal Communications 7, 16–27.
rotocols for self-organization of a wireless sensor network.Crossref | GoogleScholarGoogle Scholar |

Strudley MW, Green TR, Ascough JC (2008) Tillage effects on soil hydraulic properties in space and time: state of the science. Soil & Tillage Research 99, 4–48.
Tillage effects on soil hydraulic properties in space and time: state of the science.Crossref | GoogleScholarGoogle Scholar |

Tanriverdi C, Degirmenci H, Gonen E, Boyaci S (2016) A comparison of the gravimetric and TDR methods in terms of determining the soil water content of the corn plant. Scientific Papers-Series A-Agronomy 59, 153–158.

Zhao L, Hou R, Wu F, Keesstra S (2018) Effect of soil surface roughness on infiltration water, ponding and runoff on tilled soils under rainfall simulation experiments. Soil & Tillage Research 179, 47–53.
Effect of soil surface roughness on infiltration water, ponding and runoff on tilled soils under rainfall simulation experiments.Crossref | GoogleScholarGoogle Scholar |

Zhao L, Hou R, Wu F (2019) Rainwater harvesting capacity of soils subjected to reservoir tillage during rainfall on the Loess Plateau of China. Agricultural Water Management 217, 193–200.
Rainwater harvesting capacity of soils subjected to reservoir tillage during rainfall on the Loess Plateau of China.Crossref | GoogleScholarGoogle Scholar |