Feasibility decrease use of fertilizer on greenhouse cucumber production in soilless culture

In order to evaluate the effect of different substrates on growth, yield and quality of greenhouse cucumber cv. ‘Rubah-R’, two greenhouse experiments were conducted at the Agricultural Faculty of Guilan University in Rasht, Iran (37°16’N), during 2006 and 2007. Four growing media were used in 2006 including peat, perlite, rice-hull and a mixed substrate (perlite and rice-hull 50:50 v/v) and four other substrates such as peat + carbonized rice hull (50:50, v/v), peat + wood chips (50:50, v/v), peat + bark (50:50, v/v), and perlite 100%. Results of 2006 showed that substrates had a significant effect on the plant growth, total fruit yield, marketable fruits, fruit weight and number of fruits per m2. Furthermore, no significant differences were found between substrates in term of fruit quality parameters such as fruit length, fruit diameter and total soluble solids. Results of 2007 experiment showed that tested substrate (peat + carbonized rice hull (50:50, v/v) (T1), peat + wood chips (50:50, v/v) (T2), peat + bark (50:50, v/v) (T3), and perlite 100%) could affect the most cucumber quality components, but plant elements analysis showed a negative correlation between the different substrates especially between calcium and magnesium. It is also a positive correlation between the roots and cucumber fruits in term of nutrient uptake. The analysis showed also a positive correlation between the calcium amount in root and fruit, but no differences were found between leaves and fruits.


INTRODUCTION
The occurrence of soil-limited factors (expensive chemical soil disinfection methods, low yields and possible plant residues) has increased the interest in soilless culture and the demand for a suitable technology adapted to this type of production, which expanded enormously during the 1980s (De Rijck and Schrevens, 1998).Recent environmental regulations against groundwater pollution and the requirement to minimize water and fertilizer consumption have led to the recycling of nutrient solutions resulting in considerable fertilizer saving (Savvas and Lenz, 2000).Soilless cultivation is intensively used in protected agriculture especially for crops during months when field production is environment and to avoid uncertainties in the water and nutrient status of the soil.It also overcomes the problem of salinity and has provided a solution for decreasing fertility of natural soils, the accumulation of pests and diseases and water-use efficiency can be at least doubled compared with soil-grown plants.Soilless cultivation has the capacity for increased yield (improvement in crop production could be more than 10-fold) and replaces major amounts of field production as well as improving efficiency and quality of the products (Verdonck et al., 1983).
There is an increasing number of producers who are worried about harmful effects of rockwool fiber on human health, the disposal problems after use and the susceptibility of crops to root diseases (Hardgrave and Harriman, 1995;Yu and Komada, 1999).These concerns have initiated a search for local materials which are readily available, affordable and suitable for use as growing media (Ortega et al., 1996) with specific physicochemical properties.By-products (humic substances) forms the forestry industry (bark sawdust) are used as growing media (Nakano, 1994).Methods such as composting, aging, washing, mixing or fertilization have also been used to reduce or eliminate toxicity problems associated with organic or inorganic substances and unsuitable C: N ratios (Nichols, 1981;Yates and Rogers, 1981).It is common practice to mix inorganic substances (vermiculite, perlite, pumice, sand) with organic substrates to provide desired characteristics, such as increased porosity and water holding capacity for the later (Hardgrave and Harriman, 1995).
Thanks to the wide-range climatic conditions open field cultivation of vegetables in Iran is possible in many provinces and in all seasons.However in recent years there has been a growing tendency to make use of greenhouses.The total area of greenhouses in 1998 in Iran was 70 ha of glasshouses and 515.5 ha of plastic tunnel houses, rising to 1600 ha in 2001, 2420 ha in 2003 and 5700 ha in 2005.Of these 70% were used for vegetables and 30% for ornamental plants.The main varieties of vegetables grown are cucumbers (70%), and tomatoes (20%), followed by paprika (5%) (Ministry of Agriculture, 2005).The cucumber (Cucumis sativa L.) is one of the major vegetable crops in Iran which occupies more than 70% of the total production area in greenhouses.High yield and high quality by field production need extreme care of soil fertility and soil handling, specially using organic manure and a deep soil preparation.Soilless culture on the other hand needs an accurate control of water and nutrient regimes.Therefore, the soilless culture using different media, i.e. rockwool, peat, perlite, rice hull etc., has been intensively progressed in the past (Andreas, 1992;Benoit and Ceustermans, 1987;Goehler, 1994;Schroeder, 1992;Vogel, 1994).
Growing on artificial substrates started in the 1960 s with organic substrates, mainly peat, and nowadays a number of other materials such as rockwool, pumice stone, expanded clay and perlite (Schie, 1999).The use of different organic and inorganic substrates allow the plant the best nutrient uptake and sufficient growth and development due the optimize water and oxygen holding (Verdonck et al., 1982).On the other hand different substrates have several materials which could affect directly and indirectly on plant growth and plant development.Therefore, selection of the best substrate among various materials is one of the major tasters for the plant's productivity.
This study was conducted to investigate the effect of different substrates on growth, nitrate amount and inorganic nutrients uptake as a quality indices of cucumber.

MATERIAL AND METHODS
In order to determine, the effect of different substrates on the yield and quality of cucumber in a bag culture, an investigation with cucumber cultivar 'Rubah-R' was conducted in a glass greenhouse in 2006 and 2007 in the Agricultural Faculty of Guilan University, Rasht, Iran (37° 16' N). 2006 were used four substrates, peat (T1), perlite (2-3 mm) (T2), rice hull (T3) and a mixture of perlite and rice hull (50:50, v/v) (T4), in a completely randomized experimental design with four replications.Same investigation was carried out 2007 with some different substrate such as peat + carbonized rice hull (50:50, v/v) (T1), peat + wood chips (50:50, v/v) (T2), peat + bark (50:50, v/v) (T3), and perlite 100%.During the both trials two plants per experimental unit were sampled three times (at the start of setting, full harvest, and end of harvest).Fruit numbers and fruit weight were determined.The fresh weight and dry matter, after drying in a thermo-ventilated oven at 70 °C, were measured for the fruit, leaves and stem (including the parts removed during pruning).Nutrient solutions were used to fertigate plants were shown in Table 1 and 2 (Olfati et al., 2008).Nutrient solution was prepared with tap water and was delivered to plants by a drip irrigation system.It was distributed using a drip irrigation system, with pressure compensated by 2 L h -1 drippers, two per plant.The nutrient solution was refilled when the consumption had exceeded 30-50% of the initial volume (250 L).The volume of drainage (run-off) solution varied from 25-30% of the irrigated solution volume.Leachate was collected, but not recirculated.The quantity and uniformity, as well as the pH and the EC of the nutrient solution provided and drained, were measured every three or four days in order to optimize the fertigation process.Temperature inside the greenhouse was controlled using automatic activation of the aerial heating fan with a TCL split type air condition-indoor unit system to maintain temperature between 27 and 18 o C (day and night).No pesticide and insecticide were used during this trial.
A completely randomized experimental design was used with four replications and eight plants per experimental unit.Following characteristics were recorded: total yield, fruits number and weight, length and width of plant and fruits, soluble solid content, nitrate, total nitrogen, phosphorous, potash, calcium and magnesium in fruits, leaves and roots .The resultant data were subjected to analysis of variance using SAS statistical program.Means were separated by Duncan's Multple Range Test.

First experiment (2006)
The results showed that different substrates affected significantly (P<1%) the total and marketable yield, number of fruits, and plant height in the first trial (Table 3).Peat substrate brought the best results throughout the harvest period.The optimized vegetative growth of the plant in peat could have enhanced the plant length with several side shoots which resulted early harvest and more fruits (Table 3).This is probably due to the high cation exchange capacity (CEC) in peat substrate as a result of the favorable water and nutrient uptakes and of the superior growth and development of cucumber plants.Same results with peat substrate have been reported by (Gul, 1996), (Lee et al., 1999a) and (Verdonck 1991) comparing different growing substrates.
The results showed that different substrates influenced significantly the total and marketable yield, and number of fruits, but did not affect non-marketable fruits (Table 4).Peat substrate brought the highest fruit fresh weight with 9.78 kg.m -2 followed by perlite and perlite+rice hull with an amount of 8.57 and 8.13 kg.m -2 , respectively.Rice hull substrate had the lowest amount of cucumber fruits with 5.95 kg.m -2 .Results showed that substrates have a significant effect on cucumber   summer period).A similar result was found by (Bohme, 1995) and (Thippayarugs et al., 2001) in cucumber and lettuce.
Different substrates have not affected significantly the non-marketable yield in cucumber.(Shaw et al. 2004) maintained that soilless media can not affect the non-marketable yield in cucumber.A similar investigation by (Bohme 1995) results that by water decreasing unlike by substrates with insufficient CEC like rice hull can not increase the non-marketable yield, contrary to total and marketable yield.These results agreed with our investigation.A significant effect on the fruit number and fruit weight was found also by different substrates so that the peat substrate with 102.4 fruits per m -2 and 95.3 g. per plant could be placed on the highest level in comparison to other substrates.No significant effect was found as affected by soluble solid in cucumber due the different substrates (Table 5).Obviously the CEC and water holding capacity are the most important characteristics of peat substrate (Table 6), so the best growth rate and yield can be obtained from this substrate whereas the low CEC and WHC characteristics of rice hull substrate lead to lowest growth rate and yield amount.Mixing of rice hull and perlite will optimize the physical characteristic of substrate and will increase the growth rate.While importing of peate substrate is costly and a reachable source of rice hull is available in Iran simply, a mixture of these two substrates is suggest and is suitable for hydroponics culture.

Second experiment (2007)
The results showed that in the second experiment different substrates could not affect the growth and yield components such as plant height, fruit numbers, fruit dry matter, and leaves dry matter (except root dry matter) (Table 7).
Highest plants, fruit numbers and leaves dry matter were observed in treatment bark and peat with an amount of 1.54 m, 31.5 fruits per plant, and 10.97 g/100 g leaf dry matter respectively.The highest yield also belongs to this treatment with an amount of 2829 g/plant.Perlite showed the lowest plant height, and fruit number.No statistical differences were found by bark + peat and perlite treatments.
In term of fruit quality gave the second experiment interesting results, so that with an exception of total soluble solid (TSS) and phosphorus in the fruits all components such as nitrate, total nitrogen, potash, calcium and magnesium could affect by different substrates (Table 9-12).Highest and lowest TSS belong to the treatments C.R.H.+ P and W.Ch.+ P with an amount of 3.9 and 2.7 ( o Brix) respectively (Table 9).50% Bark and 50% peat treatment showed the lowest nitrate content in the plant with an amount of 16.13, 16.3 and 3.73 mg/100g in fruit, leaves and root respectively.A significant difference occurred by other three treatments.Although the total nitrogen was in cucumber's leaf and root without any significant differences, but the two treatments (50% Bark and 50% peat and 50% wood chips and 50% peat) gave approximately the same amount of nitrogen in the fruit which was statistically difference at 1% level (Table 10).
Different substrates had affected significantly the potash and calcium contends by cucumber's fruit and root (Table 11 and 12), whereas no differences was found by phosphorus in all parts of plant (Table 13).A significant effect was showed in magnesium content by all substrates (Table 14).Correlation coefficients showed a significantly correlation between the nitrate amount in fruits, leaves and roots of cucumber, Whit other words a nitrification can take place in the whole plant even by fruits.The positive correlation between the leaves and fruits can citied this theory.In fact, nitrate amount which is not been reduced, can remove to the fruits so that an overdose of nitrogen fertilizer can distribute the cucumber quality.
Plant cation analysis showed a negative correlation between the different substrates especially between calcium and magnesium, which depend to cations competition.It is positive correlation between the roots and fruits in term of nutrient uptake so that nitrate can remove to the fruits.The analysis showed also a positive correlation between the calcium amount in root and fruit, but no differences were found between leaves and fruits.A positive correlation occurred also between nitrate and potash amount because by the protein synthesis potash can play as a reductive element.Because of most fruit set in the stem nodes, a significantly correlation was found between plant height and fruit numbers.

CONCLUSION
This two years experiment indicated that many unused agricultural waste material such as rice hull, pine bark, wood chips and so on can be reused in many soilless culture as a potential media for substitution by expensive peat and synthetic material which are imported in Iran for greenhouse vegetable production.

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Rubah-R' cultivar seeds were sown in September 2006 and February 2007 in single plastic pots (12 ×11 cm) filled with white peat (TKS2 ® , Floragard, Germany).Transplantation took place on 23 September 2006 and 23 February 2007 into 24 L bags, at a plant density of 3.1 plants per m 2 for the remainder of the experiment.Plants were grown vertically, allowing the principal stem to grow.Pruning had taken in form of cutting the side shoots to two fruits and/or two leaves (Peyvast and Charavi, 2005).Harvesting took place for the first trial from 21.Nov.to 30.Dec.2006 (12 times) and for the second from 5. April to middle of May 2007 (9 times).

Table 6 : Physical and chemical characteristics of different substrates
* Water holding capacity, ** Cation Exchange Capacity, *** Organic Matter