Article Info
Received : 19.01.2016
Accepted : 07.04.2016
Abstract
This study was carried out to determine the effects of rice husk compost (RC), town waste compost (TW) and tobacco waste (TB) on bicarbonate extractable phosphate content (P) in soils having different pH levels under greenhouse conditions. Soil samples used in this study were taken from surfaces (0-20 cm) of agricultural fields around Samsun, Northern Anatolia. The experiment was conducted according to split plot design with four doses of organic matterials (0, 2.5, 5.0 and 7.5, %). After a month of mixing organic matterials into soils, lettuce were grown in the medias. According to the results, RC, TW and TB applications into acidic (Tepecik), neutral (Kampüs) and alkaline (Çetinkaya) soils increased extractable P content. It was observed that effectiveness of organic matterials changed depend on soil reaction, type and dose of organic matterials. All organic wastes were more effective on increment of bicarbonate extractable phosphate content in neutral soil pH when compared the other soil pH levels.
Keywords: Compost, extractable phosphorus, organic residues, soil reaction.
© 2016 Federation of Eurasian Soil Science Societies. All rights reserved
Introduction
Organic matter concentration of soils is a dynamic property and affects both soil physical and chemical properties and its overall sustainability. It is known that adding organic matter to soil develop soil physical conditions and regulate chemical conditions (Anderson et al., 1990; Gajic et al., 2006; Demir and Gülser, 2015). Many studies showed that the amelioration of soil physical (Gülser and Candemir, 2006; Yakupoglu and Ozdemir, 2012) and chemical (Özdemir, 1993; Haynes, 2000) properties largley based on increaments of organic carbon in the soils with using organic wastes. Soil organic matter is an essential but transient component of the soil that controls many physical, chemical and biological properties of the soil (Carter, 1996; Kizilkaya, 2008). In the formation of fertile soil, organic substances play a direct role as sources of plant nutrients which are liberated in available form during mineralization. The incorporation of agricultural wastes such as; poultry manure and cow dung, with rock phosphate significantly improved the release phosphorus and raised crop yields (Akande et al., 2005; Akande et al., 2008; Agyarko et al., 2015).
Organic matter level of soils is mostly low in Turkey (Kizilkaya, 2004). This is a big problem especially in semi-arid regions. To increase the level of organic material, the most common approach is to apply different organic matter sources to cultivcated soils. The use of waste in agriculture, forestry and land reclamation has been increasingly identified as an important issue for soil fertility, conservation and residual disposal (Aslantas et al., 2010; Angin et al., 2013). Using waste in agriculture helps not only dispose these materials economically, but also reduces negative effects on the environment and improve soil quality parameters. Soil quality can be improved with the addition of wastes, which contains appropriate levels of organic matter (Candemir and Gülser, 2010). Organic conditioner application into soils improves not only the soil structure but also the nutrient quantity and availability in soils (Sahin et al., 2008; Demir and Gülser, 2015; Gülser et al., 2015).
This study was carried out to determine the effects of rice husk compost (RC), town waste compost (TW) and tobacco waste (TB) applications on extractable P content in soils having different pH levels .
Material and Methods
In this study, disturbed surface soil samples (0-20 cm depth) were taken from agricultural lands aroud Samsun, Northern Anatolia. Soil reaction was taken into account for soil sampling from neutral, acidic and alkaline soil series (Tepecik, TP; Kampus, KP Cetinkaya, CT, respectively). The rice husk compost (RC), town waste compost (TW) and tobacco waste (TB) were obtained from different institutions. Some properties of organic materials are given in Table 1.
Soil samples were treated with four different levels of organic matterials (0, 2.5%, 5.0%, and 7.5% dry weight basis) and soil mixtures were put into plastic pots with a volume of 4500 cm3. Each treatment was replicated two times in a split block design (3 soils x 3 organic matterials x 4 application doses x 2 replications). All pots were incubated at field capacity moisture content and 20°C for 4 weeks under greenhouse conditions. After the one month of incubation period, lettuce plant was grown in the pots. At the end of the greenhouse study, soil samples were taken for analyses. Some physical and chemical properties of soils were determined as fallows; soil organic matter content by the modified Walkley-Black method (Nelson and Somners, 1982); soil texture by hydrometer method (Bouyoucos, 1962); pH in soil-water suspension (1/2.5 w:v) by pH meter (McLean, 1982), EC in the same soil suspension by EC meter (Rhoades, 1982), lime content by Scheibler calcimeter method (Nelson, 1982). Due to increasing soil pH after the organic matter applications, phosphate contents of soils were determined by sodium bicarbonate (0.5 M NaHCO3 extractable) method (Olsen and Somners, 1982). Data analyses were done using SPSS package programe.
Results and Discussion
Soil properties
Some physical and chemical soil properties are given in Table 2. According to the results, soil properties can be summarized as; moderately fine and fine in texture, moderate in organic matter content, low in total lime content, moderately acid, neutral and moderately alkaline in pH (Soil Survey Division Staff, 1993).
Changes in soil pH values
Application of organic materials on soil pH are given in Table 3. While soil pH values in Tepecik and Kampüs soils increased by the organic waste application, soil pH values in Çetinkaya soil decreased. Mean soil pH varied between 6.53 and 6.82 in Tepecik Soil, between 7.04 and 7.37 in Kampüs Soil and between 7.45 and 7.95 in Çetinkaya Soil by the application of organic materials. Except the 2.5 % application doses in Tepecik soil, soil pH values varied around neutral and moderately alkaline after the organic waste treatments. Candemir and Gülser (2010) reported that tobacco waste application into a clay soil increased soil pH after 16, 23 and 30 months of the application in a field study. However, Demir and Gülser (2015) reported that 3, 6 and 9% applications of rice husk compost into moderately alkaline soil decreased soil pH.
Bicarbonate extractable phosphate contents of soils
The effects of amendments on the bicarbonate extractable P values changed depend on the type and rates of organic materials in each soil series (Figure 1). It was observed that the bicarbonate extractable P values of all soils increased significantly depending on soil pH and type of organic materials. Bicarbonate extractable P values in the control soils were 3.02 ppm for moderately acidic Tepecik, 11.21 ppm in neutral Kurupelit and 9.20 ppm moderately alkaline Çetinkaya soil series. (Figure 1). According to the P mean values of organic materials compared with the control, all organic treatments were more effective on neutral or Kampüs soil. The percentage increases in mean P values by the application of organic materials in moderately acidic, neutral and moderately alkaline soils over the control were found to be TB > TW > RC (69, 56 and 49 %, respectively) in Tepecik soil, TB > TW > RC (52, 43 and 29 %, respectively) in Kampüs soil and TB > TW > RC (59, 31 and 27 %, respectively) in Çetinkaya soil series. According to the control soils, bicarbonate extractable mean P contents of Tepecik, Kurupelit and Çetinkaya soil series significantly increased 57.9, 41.8 and 39.1%, respectively (Table 4). Demir and Gülser (2015) reported that application of 9 % rice husk compost into soil increased available P content from 60 to 120 ppm, significantly.
According to the statistical analysis of data given in Table 4, bicarbonate extractable P values were significantly different in soil series at 0.01 level. On the other hand, bicarbonate extractable mean P values were also significant for different organic materials and application doses at 0.01 level.
Conclusion
The results can be summarized as; organic material treatments generally increased the bicarbonate extractable P contents of soils having different pH levels. Effectiveness of the organic materials varied depends on soil reaction, type and application rates of organic materials. The effectiveness of the rice husk compost on bicarbonate extractable P content of soil had considerably lower than the other organic materials. The highest effect on the P content was obtained with the highest rate of tobacco waste application in Kurupelit soil having neutral pH. All organic wastes were more effective on the increment of P content in neutral soil pH when compared the other soil pH levels.
References
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Nutullah Özdemir *, Ömrüm Tebessüm Kop Durmus, Irem Zorba
Ondokuz Mayis University, Faculty of Agriculture, Department of Soil Science and Plant Nutrition, Samsun, Turkey
* Corresponding author.
Ondokuz Mayis University, Faculty of Agriculture, Department of Soil Science and Plant Nutrition, 55139 Samsun, Turkey
Tel.: +903623121919 E-mail address: [email protected]
e-ISSN: 2147-4249 DOI: 10.18393/ejss.2016.4.294-298
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Copyright Federation of Eurasian Soil Science Societies (FESSS) 2016
Abstract
This study was carried out to determine the effects of rice husk compost (RC), town waste compost (TW) and tobacco waste (TB) on bicarbonate extractable phosphate content (P) in soils having different pH levels under greenhouse conditions. Soil samples used in this study were taken from surfaces (0-20 cm) of agricultural fields around Samsun, Northern Anatolia. The experiment was conducted according to split plot design with four doses of organic matterials (0, 2.5, 5.0 and 7.5, %). After a month of mixing organic matterials into soils, lettuce were grown in the medias. According to the results, RC, TW and TB applications into acidic (Tepecik), neutral (Kampüs) and alkaline (Çetinkaya) soils increased extractable P content. It was observed that effectiveness of organic matterials changed depend on soil reaction, type and dose of organic matterials. All organic wastes were more effective on increment of bicarbonate extractable phosphate content in neutral soil pH when compared the other soil pH levels.
You have requested "on-the-fly" machine translation of selected content from our databases. This functionality is provided solely for your convenience and is in no way intended to replace human translation. Show full disclaimer
Neither ProQuest nor its licensors make any representations or warranties with respect to the translations. The translations are automatically generated "AS IS" and "AS AVAILABLE" and are not retained in our systems. PROQUEST AND ITS LICENSORS SPECIFICALLY DISCLAIM ANY AND ALL EXPRESS OR IMPLIED WARRANTIES, INCLUDING WITHOUT LIMITATION, ANY WARRANTIES FOR AVAILABILITY, ACCURACY, TIMELINESS, COMPLETENESS, NON-INFRINGMENT, MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. Your use of the translations is subject to all use restrictions contained in your Electronic Products License Agreement and by using the translation functionality you agree to forgo any and all claims against ProQuest or its licensors for your use of the translation functionality and any output derived there from. Hide full disclaimer