The use of treated wastewater and fertigation in greenhouse pepper crop as affecting growth and fruit quality

The performance and suitability of tertiary treated wastewater (TW) and/or fertigation (F) in pepper plants were studied over a 4-month period in greenhouse conditions. Four treatments were used consisting of (1) water, (2) water + F, (3) TW, and (4) TW + F. The F and/or TW application increased plant height and plant biomass compared with the control plants (irrigated with water) while no differences were observed in the number of leaves produced. Plants grown with TW + F were thicker than control plants. The addition of F increased fruit number in both water and TW, which resulted in increased plant yield and fruit marketability for the water application but decreased mean fruit weight for TW application. The application of TW increased fruit total soluble solids but decreased fruit firmness whereas adding F, these changes were normalized. The F and/or TW application reduced fruit total phenolics, fruit acidity, and fruit length but not fruit diameter. No differences were observed in fruit dry matter content, fruit color/lightness ( a , b , and L value). Bacteria (total coliform and Escherichia coli ) units on the fruits did not differ among the treatments. The results indicate that wastewater may act as an alternative means of irrigation if following strict safety aspects while the fertigation acted beneficially.

[1]  T. Manios,et al.  The use of primary and secondary treated municipal wastewater for cucumber irrigation in hydroponic system , 2013 .

[2]  Astrid Bischoff,et al.  Disinfection of treated wastewater as an essential purification step for safe urban reuse: a comparative pilot study of UV- and ClO2-disinfection systems for urban reuse applications in China , 2013 .

[3]  T. Manios,et al.  Occurrence of Micro-pollutants in a Soil–Radish System Irrigated with Several Types of Treated Domestic Wastewater , 2013, Water, Air, & Soil Pollution.

[4]  F. Licciardello,et al.  Treated municipal wastewater reuse in vegetable production , 2012 .

[5]  Dennis Wichelns,et al.  The challenges of wastewater irrigation in developing countries , 2010 .

[6]  F. Pedrero,et al.  Effects of treated wastewater irrigation on lemon trees , 2009 .

[7]  P. Mañas,et al.  Irrigation with treated wastewater: Effects on soil, lettuce (Lactuca sativa L.) crop and dynamics of microorganisms , 2009, Journal of environmental science and health. Part A, Toxic/hazardous substances & environmental engineering.

[8]  U. Sahin,et al.  Effects of untreated and treated wastewater irrigation on some chemical properties of cauliflower (Brassica olerecea L. var. botrytis) and red cabbage (Brassica olerecea L. var. rubra) grown on calcareous soil in Turkey , 2008 .

[9]  I. Kalavrouziotis,et al.  Effects of municipal reclaimed wastewater on the macro- and micro-elements status of soil and of Brassica oleracea var. Italica, and B. oleracea var. Gemmifera , 2008 .

[10]  T. A. Wheaton,et al.  Effects of Reclaimed Municipal Waste Water on Horticultural Characteristics, Fruit Quality, and Soil and Leaf Mineral Concentration of Citrus , 2008 .

[11]  S. Consoli,et al.  Effects of reclaimed wastewater irrigation on soil and tomato fruits: A case study in Sicily (Italy) , 2007 .

[12]  I. Singleton,et al.  Impact of atmospheric ozone-enrichment on quality-related attributes of tomato fruit , 2007 .

[13]  E. V. Münch Evaluation of agricultural reuse practices and relevant guidelines for the Alba Rancho WWTP (primary and secondary facultative ponds) in Cochabamba, Bolivia , 2007 .

[14]  S. Terzakis,et al.  Evaluation of Primary and Secondary Treated and Disinfected Wastewater Irrigation of Tomato and Cucumber Plants Under Greenhouse Conditions, Regarding Growth and Safety Considerations , 2006, Water environment research : a research publication of the Water Environment Federation.

[15]  S. Mousavi,et al.  EFFECTS OF USING SUB SURFACE DRIP IN IRRIGATION OF TOMATO AND EGGPLANT WITH TREATED MUNICIPAL WASTEWATER , 2006 .

[16]  R. Carr,et al.  Managing wastewater agriculture to improve livelihoods and environmental quality in poor countries , 2005 .

[17]  F. Ferrini,et al.  Municipal-treated wastewater reuse for plant nurseries irrigation. , 2004, Water research.

[18]  A Pollice,et al.  Tertiary filtered municipal wastewater as alternative water source in agriculture: a field investigation in Southern Italy. , 2004, The Science of the total environment.

[19]  D. Brummell,et al.  Cell wall metabolism in fruit softening and quality and its manipulation in transgenic plants , 2001, Plant Molecular Biology.

[20]  M. Fayyad,et al.  Impact of treated wastewater irrigation on quality attributes and contamination of tomato fruit , 2003 .

[21]  M. Mohammad,et al.  Changes in Soil Fertility Parameters in Response to Irrigation of Forage Crops with Secondary Treated Wastewater , 2003 .

[22]  M. Shepherd,et al.  Effects of past sewage sludge additions on heavy metal availability in light textured soils: implications for crop yields and metal uptakes. , 2003, Environmental pollution.

[23]  F. Kansiime,et al.  Determination of Escherichia coli Contamination with Chromocult Coliform Agar Showed a High Level of Discrimination Efficiency for Differing Fecal Pollution Levels in Tropical Waters of Kampala, Uganda , 2000, Applied and Environmental Microbiology.

[24]  A. Jaradat,et al.  Wastewater Irrigation Effect on Soil, Crop and Environment: a Pilot Scale Study at Irbid, Jordan , 1998 .

[25]  H. Gerster The potential role of lycopene for human health. , 1997, Journal of the American College of Nutrition.

[26]  Kurth Perttu,et al.  Economics of using municipal wastewater irrigation of willow coppice crops , 1997 .

[27]  F. Brissaud,et al.  Wastewater reuse in Tunisia: Assessing a national policy , 1996 .

[28]  Diane M. BARRElT,et al.  Activity of Softening Enzymes during Cherry Maturation , 1994 .