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تأثیر ورمی کمپوست و کود شیمیایی اوره بر تغییرات ماهانۀ رواناب در مقیاس کرت | ||
اکوهیدرولوژی | ||
مقاله 11، دوره 4، شماره 4، دی 1396، صفحه 1061-1070 اصل مقاله (913.76 K) | ||
نوع مقاله: پژوهشی | ||
شناسه دیجیتال (DOI): 10.22059/ije.2017.63236 | ||
نویسندگان | ||
مریم رضایی پاشا1؛ کاکا شاهدی* 2؛ قربان وهابزاده2؛ عطااله کاویان2؛ مهدی قاجار3؛ پاسکال جوکئت4 | ||
1دانشجوی دکترای علوم و مهندسی آبخیزداری، دانشکدۀ منابع طبیعی، دانشگاه علوم کشاورزی و منابع طبیعی ساری | ||
2دانشیار گروه آبخیزداری، دانشکدۀ منابع طبیعی، دانشگاه علوم کشاورزی و منابع طبیعی ساری | ||
3دانشیار گروه خاکشناسی، دانشکدۀ علوم زراعی، دانشگاه علوم کشاورزی و منابع طبیعی ساری | ||
4پژوهشگر مؤسسۀ تحقیقات اکولوژی و علوم محیطی، فرانسه | ||
چکیده | ||
در مطالعۀ حاضر تغییرات ماهانۀ کمیت و کیفیت رواناب تحت تأثیر استفادۀ تلفیقی از کود ورمی کمپوست و کود شیمیایی اوره در شمال ایران بررسی شد. بدینمنظور 18 کرت 5 ×1 متر روی اراضی کشاورزی با شیب 14 درصد تحت شرایط بارش طبیعی در سال 1393 بهمدت پنج ماه برای اندازهگیری رواناب نصب شدند. در مجموع روانابهای بهدستآمده از 12 رگبار از دیماه 1393تا اردیبهشت 1394 بررسی شد. تیمارهای بررسیشده شامل تیمار شاهد (بدون کود آلی و شیمیایی)، 100 درصد ورمی کمپوست، 100 درصد کود شیمیایی اوره، 100 درصد ورمی کمپوست + 50 درصد کود شیمیایی اوره، 75 درصد ورمی کمپوست + 50 درصد کود شیمیایی اوره،50 درصد ورمی کمپوست + 50 درصد کود شیمیایی اوره است. نتایج نشان داد پارامترهای تولید رسوب، غلظت نیترات، EC و pH رواناب تحت تأثیر تیمارهای تلفیقی ورمی کمپوست و کود اوره قرار نگرفته است، اما استفاده از ورمی کمپوست به کاهش معنادار حجم رواناب در سطح اطمینان 99 درصد در ماه نخست آزمایش منجر شده است. در مجموع، نتایج نشاندهندۀ اثرگذاری مثبت ورمی کمپوست بر کمیت رواناب است، اما این اثرگذاری بر مدیریت کمیت و کیفیت رواناب در اراضی شیبدار محدود بوده است. | ||
کلیدواژهها | ||
اراضی کشاورزی؛ حجم رواناب؛ شمال ایران؛ کیفیت رواناب؛ ورمی کمپوست | ||
عنوان مقاله [English] | ||
Influence of vermicompost and urea chemical fertilizer on monthly changes in runoff at plot scale | ||
نویسندگان [English] | ||
Maryam Rezaei Pasha1؛ Kaka Shahedi2؛ Qorban Vahabzadeh2؛ Ataollah Kavian2؛ Mehdi Ghajar Sepanlou3؛ Pascal Jouquet4 | ||
1Watershed Management Engineering Department, Sari Agricultural Science and Natural Resource University (SANRU), Iran | ||
2Watershed Management Engineering Department, Sari Agricultural Science and Natural Resource University (SANRU), Iran | ||
3Pedology Department, SANRU, Iran | ||
4Institute of Ecology and Environmental Sciences, 32 av. H. Varagnat, 93143 Bondy, France | ||
چکیده [English] | ||
This study aims to investigate monthly changes in runoff quality and quantity under the influence of Vermicompost and urea in Northern Iran. For this purpose, 18 runoff measurement plots of 1× 5 m were installed on 14% slopes under natural rainfall during 5 months (from January 2014 until April 2015). In total 12 rainfall events and their runoff were considered. Treatments in this study included control (without organic and chemical fertilizers), 100% Vermicompost, 100% Urea fertilizer, 100% Vermicompost + 50% Urea chemical fertilizer, 75% Vermicompost + 50% Urea chemical fertilizer, 50% Vermicompost + 50% Urea chemical fertilizer. The results showed that sediment yields, nitrate amount, pH and EC of runoff were not influenced due to applying Vermicompost and Urea fertilizer. But using Vermicompost reduced volume of runoff overfirst month of the experiment (sig=0.002) which shows the positive effect of Vermicompost on runoff quantity but it has a limited impact on runoff management on steep terrain. | ||
کلیدواژهها [English] | ||
Agricultural, Runoff Volume, Northern Iran, Runoff quality, vermicompost | ||
مراجع | ||
[1]. Ojeda G, Tarrason D, Ortiz O, Alcan iz JM. Nitrogen losses in runoff waters from a loamy soil treated with sewage sludge. Agriculture, Ecosystems and Environment. 2006; 117: 49–56.
[2]. Qeysary M M, Hodjy M, Najafy P, Abdollahy A. Investigation of nitrate contamination of groundwater South East area of the Esfahan city. Journal of Ecology. 2007; 42:43-50 (Persian).
[3]. Jouquet EP, Bloquel E, Thu Doan T, Ricoy M, Orange D, Rumpel C, et al. Do compost and vermicompost improve macronutrient retention and plant growth in degraded tropical soils?. Compost science & utilization. 2011; 19(1): 15- 24.
[4]. Zhang Y, Li C, Wang Y, Hu Y, Christie P, Zh Xiaolin J. Maize yield and soil fertility with combined use of compost and inorganic fertilizers on a calcareous soil on the North China Plain. Soil & Tillage Research. 2016; 155: 85–94.
[5]. Deilam M, Rohany H. The trend of runoff and surface water quality changes in the river Gorgan. Seventh National Conference on Watershed Management Science and Engineering. Isfahan University of Technology. Iran. 2012 (Persian).
[6]. Hazbavi Z., Sadeghi S H R, Younesi H A. Analysis and assessing affectability of runoff components from different levels of polyacrylamide. Journal of Water and Soil resources Conservation. 2013; 2(2):1-13(Persian).
[7]. Bertol J O, Eduardo Rizzi N, Favaretto , do Carmo M. Phosphorus loss by surface runoff in no-till system under mineral and organic fertilization. Scientia Agricola (Piracicaba, Braz.). 2010; 67(1): 71-77.
[8]. Mafakhery S, Omidbeigy R, Sefidkon F, Rejali F. Effect of biofertilizers on physiological and morphological characteristics and on essential oil content in Dragonhead (Dracocephalum moldavica). Iranian journal of Horticultural Sciences. 2012; 42(3):245-254 (Persian).
[9]. Lazcano C, Dominguez J. Chapter 10 the Use of Vermicompost in Sustainable Agriculture: Impact on Plant Growth and Soil Fertility. ISBN 978-1-61324-785-3. Nova Science Publishers, Inc. 2011.
[10]. Romaniuk R, Giuffré L, Romero R. A Soil Quality Index to Evaluate the Vermicompost Amendments Effects on Soil Properites. Journal of Environmental Protection. 2011; 2: 502-510.
[11]. Dominguez J, Edwards C A. 17. Vermicomposting organic wastes: A review, Soil Zoology for Sustainable Development in the 21st Century, Shakir Hanna S H, Mikhail W Z A, eds. Cairo. 2004.
[12]. Manivannan S, Balamurugan M, Parthasarathi K, Gunasekaran G, and Ranganathan L S. Effect of vermicompost on soil fertility and crop productivity - beans (Phaseolus vulgaris). Journal of Environmental Biology. 2009; 30(2): 275-281.
[13]. Shahi S K. Effect of organic manures, inorganic fertilizers and biofertilizers addition on soil properties and productivity under onion (Allium Cepa L.). 2013; 13(1):381-387.
[14]. Bagheri H, Afrasiab P. The effects of super-absorbent, vermicompost and different levels of irrigation water salinity on soil saturated hydraulic conductivity and Porosity and Bulk density. International Research Journal of applied and Basic Sciences. 2013; 4(8): 2381-2388.
[15]. Azarmi R, Torabi Giglou M, Didar Taleshmikail R. Influence of vermicompost on soil chemical and physical properties in tomato (Lycopersicum esculentum) field. African Journal of Biotechnology. 2008; 7 (14): 2397-2401.
[16]. Classen J, Rice J, Mark J, Rhonda Sh. The Effects of Vermicompost on Field Turnips and Rainfall Runoff. Compost Science & Utilization. 2007; 15 (1):34-39.
[17]. Hansen N E, Vietor D M, Munster C L, White R H, and Provin T L. Runoff and Nutrient Losses from Constructed Soils Amended with Compost. Applied and Environmental Soil Science. 2012. Article ID 542873, 9 pages. doi:10.1155/2012/542873.
[18]. Cabrera V E, Stavast L J, Baker T T, Wood M K, Cram D S, Flynn R P, et al. Soil and runoff response to dairy manure application on New Mexico rangeland. Agriculture, Ecosystems and Environment. 2009; 131: 255–262.
[19]. Ojeda G, Alcaniz J M, Ortiz O. Runoff and losses by erosion in soils amended with sewage sludge. Land degradation & development. 2003; 14: 563–573.
[20]. Bakr N, Weindorf D C, Zhu Y, Arceneaux A E, Selim H M. Evaluation of compost/mulch as highway embankment erosion control in Louisiana at the plot-scale. Journal of Hydrology. 2012; 468–469: 257–267.
[21]. Liu z, Yang J, Yang zh, Zou J. Effects of rainfall and fertilizer types in nitrogen and phosphorus concentration in surface run off from subtropical tea fields in Zhejiang, china. Nutrient cycling in Agro ecosystems. 2012 93(3):297-307.
[22]. Zhi-guo L, Chi-minga G, Run-hu Z, Mohamed I, Guo-shia Z, Li W, et al. The benefic effect induced by biochar on soil erosion and nutrient loss of slopping land under natural rainfall conditions in central China. Agricultural Water Management. 2017; 185: 145–150.
[23]. Gholami L, Sadeghi S H R, Homaee M. Different effects of sheep manure conditioner on runoff and soil loss components in eroded soil. Catena. 2016; 139: 99–104.
[24]. Gilley B, Eghball. Runoff and erosion following field application of beef cattle manure and compost. American Society of Agricultural and Biological Engineers. 1998; 41(5): 1289-1294.
[25]. Martinez F, Casermeiro M A, Morales D, Cuevas G, Walter I. Effects on run-off water quantity and quality of urban organic wastes applied in a degraded semi-arid ecosystem. The Science of the Total Environment. 2003; 305: 13–21.
[26]. Ramos M C, Martinez-Casasnovas J A. Nutrient losses by runoff in vineyards of the Mediterranean Alt Penede`s region (NE Spain). Agriculture, Ecosystems and Environment. 2006; 113: 356–363.
[27]. Bakr N, Elbana T A, Arceneaux A E, Zhu Y, Weindorf D C, Selim H M. Runoff and water quality from highway hillsides: Influence compost/mulch. Soil & Tillage Research. 2015; 150: 158–170.
[28]. Gilley J E, Eghball B. Residual Effects of Compost and Fertilizer Applications on nutrients in Runoff. Biological Systems Engineering: Papers and Publications. 2002; Paper 22. http://digitalcommons.unl.edu/biosysengfacpub/22
[29]. Won C H, Choi Y H, Hwan Shin M, Jae Lim K, Dae Choi J. Effects of rice straw mats on runoff and sediment
discharge in a laboratory rainfall simulation. Geoderma. 2012; 189–190: 164–169.
[30]. Wei X, Lia X, Wei N. Reducing runoff and soil loss using corn stalk juice at plot scale. Soil & Tillage Research. 2017; 168: 63–70.
[31]. Doan Th Th, Henry-des-Tureaux Th, Rumpel C, Louis Janeau J, Jouquet P. Impact of compost, vermicompost and biochar on soil fertility, Maize yield and soil erosion in northern Vietnam: A three year mesocosm experiment. Science of the total Environmental. 2015; 54: 147-154.
[32]. Chari M M, Gazmeh S, Afrasiab P, Rezazadeh shamkhal S. Effect of vermicompost in runoff and soil erosion and water infiltration in sloped lands by using from rain simulator. International Journal of Agriculture and Crop Sciences. 2013; IJACS/2013/5-20/2443-2446.
[33]. Quilbe R, Serreau Ch, Wicherek S, Bernard C, Thmas Y, Oudinet J. Nutrient transfer by runoff from sewage sludge amended soil under simulated rainfall, Environmental Monitoring and Assessment. 2005; 100:177–190.
[34]. Harris-Pierce R L, Redente E F, Barbarick K A. Sewage Sludge Application Effects on Runoff Water Quality in Semiarid Grassland. Journal of Environmental Quality. 1994; 24(1): 112-115.
[35]. Lal R, Kimble J M, Stewart B A. Advances in soil science, Global climate change and tropical ecosystems. In: Lal R, editor. Chapter7. Restorative eddects of Mucuna utilize on soil organic C pool of a severely degraded alfisoil in western Nigeria. Lewis publishers, CRC Press, Washington.1999; P.147-157.
[36]. He Y T, Zhang W J, Xu M G، Tong X G, Suna F X, Wang J Z, et al. Long-term combined chemical and manure fertilizations increase soil organic carbon and total nitrogen in aggregate fractions at three typical cropland soils in China. Science of the Total Environment. 2015; 532: 635–644.
[37]. Guo L, Wu G, Lic Y, Lia C, Liud W, Menga J, et al. Effects of cattle manure compost combined with chemical fertilizer on topsoil organic matter, bulk density and earthworm activity in a wheat–maize rotation system in Eastern China. Soil & Tillage Research. 2016; 156: 140–147.
[38]. Chaplot V A M, Bissonnais Y L. Runoff Features for Inter rill Erosion at Different Rainfall Intensities, Slope Lengths, and Gradients in an Agricultural Loessial Hillslope in Soil. Soil Science Society of America Journal. 2003; 67:844–851.
[39]. Albaladejo J, Castillo V, Diaz E. Soil loss and runoff on semiarid land as amended with urban solid refuse. Land Degradation & Development. 2000; 11:363-373.
[40]. Biddoccu M, Ferraris S, Opsia F, Cavallo E. Long-term monitoring of soil management effects on runoff and soil erosion in sloping vineyards in Alto Monferrato (North–West Italy). Soil & Tillage Research. 2016; 155: 176–189.
[41]. Noury A, Farhady M R, Aqaei M, Noury F, Aziznejad R, Farshadfar M. Application of SPSS in Agricultural Researchs. Kermanshah. Publish agricultural education. 2007 (Persian).
[42]. Gilley J E, Risse L M. Runoff and soil loss as affected by the application of manure. The American Society of Agricultural and Biological Engineers. 2000; 43(6): 1583-1588.
[43]. Mamedov A I, Bar-Yosef B, Levkovich I, Rosenberg R, Silber A, Fine P, Levy G J. Amending soil with sludge, manure, humic acid, orthophosphate and phytic acid: effects on infiltration, runoff and sediment loss, land degradation & development. 2016; 27(6): 1629-1639.
[44]. Tejada M, Gonzalez J L. Influence of two organic amendments on the soil physical properties, soil losses, sediments and runoff water quality. Geoderma. 2008; 145: 325–334.
[45]. Persyn R A, Glanville T D, Richard T L, Laflen J M, Dixon P M. Environmental Effects of Applying Composted Organics to New Highway Embankments: Part 1.Interrill Runoff and Erosion. Agricultural and Bio systems Engineering Publications and Papers. 2004; 47(2): 463-469.
[46]. Faucette L B, Risse L M , Nearing M A , Gaskin J W, West L T. Runoff, erosion, and nutrient losses from compost and mulch blankets under simulated rainfall. Journal of Soil and Water Conservation. 2004; 59 (4): 154-160.
[47]. Liu Z, Yang J, Yang Zh, and Zou J. Effects of rainfall and fertilizer types in nitrogen and phosphorus concentration in surface run off from subtropical tea fields in Zhejiang, china. Nutrient cycling in Agro ecosystems. 2012; 93(3): 297-307.
[48]. Shu-Cai Z, Zhi-Yao S, Bei-Guang CH, Qi-Tang W, Ying O. Nitrogen and Phosphorus Runoff Losses from Orchard Soils in South China as Affected by Fertilization Depths and Rates. Pedosphere. 2008; 18(1): 45–53. | ||
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