The yield response of Chinese cabbage to phosphate fertilizer and manure was studied. The effect of over-application of phosphate fertilizer and manure on plant total phosphorus content and phosphorus accumulation in soil was also investigated. The experiment was arranged in a plastic barrel in the field for two years. Application of phosphate fertilizer at the rates of 150–600 mg·kg-1 gave a yield increase of 14.9%–21.5% of Chinese cabbage. Application of manure at the rates of 33.3–133.2 g·kg-1 gave a yield increase of 18.2%–25.9% of the crop. There was no significant difference of yield response at the rates of 150, 300 and 600 mg·kg-1 phosphate fertilizer, and no significant yield response to the application of phosphate fertilizer after applying manure. The total P content in Chinese cabbage was increased gradually with the rate increase of phosphate fertilizer and manure. Phosphorus was absorbed luxuriously by the plant with over-application phosphate fertilizer and manure. The content of total-P, Olsen-P, water-soluble P, biological available P in the soil was increased with the rate of phosphate fertilizer and manure. Organic phosphorus in the soil was increased by the application of manure. Olsen-P had high correlations with water-soluble-P and biological available-P, but there was a poor relationship between Olsen-P and organic-P.
LIAO Wenhua, LIU Jianling, Wang Xinjun, JIA Ke, MENG Na
. Effects of phosphate fertilizer and manure on
Chinese cabbage yield and soil phosphorus accumulation[J]. Frontiers of Agriculture in China, 2008
, 2(3)
: 301
-306
.
DOI: 10.1007/s11703-008-0026-2
1. Börling K, Otabbong E, Barberis E (2004). Soil variables for predicting potentialphosphorus release in Swedish norcalcareous soils. Journal of Environmental Quality, 33(1): 99–106
2. Bao S D (1981). Soil and Agricultural Chemistry Analysis. Beijing: China Agriculture PublishingHouse, 76–82 (in Chinese)
3. Bowman R A, Vigil M F (2002). Soiltesting for different phosphorus pools in cropland soils of the GreatPlains. Journal of Soil and Water Conservation, 57(6): 479–485
4. Chen L S, Li R G (1984). The Principlesand Practices of Applying Fertilizer on Cropland. Beijing: China Agriculture PublishingHouse, 91–104 (in Chinese)
5. Delaune P B, Moore Jr P A, Carman D K, Sharpley A N, Haggard B E, Daniel T C (2004a). Development of a phosphorus I indexfor pastures fertilized with poultry litter-factors affecting phosphorusrunoff. Journal of Environmental Quality, 33(6): 2183–2191
6. Delaune P B, Moore Jr P A, Carman D K, Sharpley A N, Haggard B E, Daniel T C (2004b). Evaluation of the phosphorus sourcecomponent in the phosphorus index for pastures. Journal of Environmental Quality, 33(6): 2192–2200
7. Kleinman P J A, Sharpley A N, Wolf A M, Beegle D B (2002). Measuring water-extractable phosphorus in manure as an indicatorof phosphorus in runoff. Soil Science Societyof America Journal, 66(6): 2009–2015
8. Koopmans G F, Chardon W J, Willigen P D, Riemsdijk W H V (2004). Phosphorus desorption dynamics in soil and the linkto a dynamic concept of bioavailability. Journal of Environmental Quality, 33: 1393–1402
9. Leytem A B, Sims J T, Coale F J (2003). On-farm evaluation of a phosphorussite index for Delaware. Journal of Soiland Water Conservation, 58(2): 89–97
10. Li R G (1985). Function of the Yield Response of Crops to Fertilizer. Beijing: China Agriculture Publishing House, 76–83 (in Chinese)
11. Lin B, Lin J X, Li J K (1994). The changes of crop yield and soilfertility with long-term fertilizer application. Plant Nutrition and Fertilizer Science, 1: 6–18 (in Chinese)
12. Liu J L, Zhang F C (2000). The changeof soil P by applied P fertilizer and manure in long-term rotationexperiment II, the change of Olsen-P and inorganic phosphorus. Chinese Journal of Applied Ecology, (11)3: 365–368 (in Chinese)
13. Liu J L, Liao W H, Zhang F H, Gao Z L (2004). Change in different phosphorus pool and distribution in soil profileof vegetable field. Journal of AgriculturalUniversity of Hebei, (27)6: 6–11 (in Chinese)
14. Liu J L, Li R G, Liao W H, Jia K, Meng N, Cui Z (2005). The yield response of vegetable to phosphate fertilizerand soil phosphorus accumulation in Chinese cabbage. Scientia Agricultura Sinica, 38(8): 1616–1620 (in Chinese)
15. Lu R K, Shen Z Y, Shi J P (2000). Nutrient balance of agroecosystemin six provinces in southern China. ScientiaAgricultura Sinica, 33(2): 63–67 (in Chinese)
16. Lu R K (2003). The phosphorus level of soil and environmental protectionof water body. Phosphorus & CompoundFertilizer, 18(1): 4–8 (in Chinese)
17. Maguire R O, Sims J T (2002). Soiltesting to predict phosphorus leaching. J Environment Quality, 31:1601–1609
18. Mallarino A P, Atia A M (2005). Correlationof a resin membrane soil phosphorus test with corn yield and routinesoil tests. Soil Science Society of AmericaJournal, 69(1), 266–272
19. Nair V D, Portier K M, Gractz D A, Walter M L (2004). An environmental threshold for degree of phosphorus saturation saturationin sandy soils. Journal of EnvironmentalQuality, 33(1):107–113
20. Saleque M A, Naher U A, Islam A, Pathan A B M B U, Hossain A T M S, Meisner C A (2004). Inorganic and organic phosphorusfertilizer effects on the phosphorus fractionation in wetland ricesoils. Soil Science Society America Journal, 68: 1635–1644
21. Sharpley A N, McDowell R W, Weld J L, Peter J A K (2001). Assessing site vulnerability to phosphorus loss in anagricultural watershed. Journal of EnvironmentalQuality, 30(6): 2026–2036
22. Sharpley A N, McDowell R W, Peter J A K (2004). Amount, forms, and solubility ofphosphorus in soils receiving manure. SoilScience Society of America Journal, 68(6): 2048–2057
23. Sims J T, Ewards A C, Schoumans O F, Simard R R (2000). Integrating soil phosphorus testing into environmentally based agriculturalmanagement practices. Journal of EnvironmentalQuality, 29(1): 60–71
24. Walf A M, Baker H B (1985). Soiltests for estimating labile-soluble and algae-available phosphorusin agricultural soils. Journal of EnvironmentalQuality, 14(3): 341–348
25. Zhang W L, Wu S X, Ji H J, Kolbe H (2004). Estimation of agricultural non-point source pollution in China andthe alleviating strategies I. Estimation of agricultural non-pointsource pollution in China in early 21st century. Scientia Agricultura Sinica, 34(7): 1008–1017 (in Chinese)
