Abstract
Continuous application of organic and inorganic fertilizers can affect soil and food quality with respect to heavy metal concentrations. The risk of cadmium (Cd) contamination in a long-term (over 20 years) experimental field in North China with an annual crop rotation of winter wheat and summer maize was investigated. The long-term experiment had a complete randomized block design with seven fertilizer treatments and four replications. The seven fertilizer treatments were (1) organic compost (OM), (2) half organic compost plus half chemical fertilizer (OM + NPK), (3) NPK fertilizer (NPK), (4–6) chemical fertilizers without one of the major nutrients (NP, PK, and NK), and (7) an unamended control (CK). Soil samples from 0 to 20 cm were collected in 1989, 1999, and 2009 to characterize Cd and other soil properties. During the past 20 years, various extents of Cd accumulation were observed in the soil, and the accumulation was mainly affected by atmospheric dry and wet deposition and fertilization. In 2009, the average Cd concentration in the soil was 148 ± 15 μg kg−1 and decreased in the order of NPK ≈ OM + NKP ≈ PK > NP ≈ NK > OM ≈ CK. Sequential extraction of Cd showed that the acid-soluble fraction (F1, 32 ± 7 %) and the residual fraction (F4, 31 ± 5 %) were the dominant fractions of Cd in the soil, followed by the reducible fraction (F2, 22 ± 5 %) and oxidizable fraction (F3, 15 ± 6 %). The acid-soluble Cd fraction in the soil and Cd accumulation in the crops increased with soil plant available K. Fraction F3 was increased by soil organic C (SOC) and crop yields, but SOC reduced the uptake of soil Cd by crops. The long-term P fertilization resulted in more Cd buildup in the soil than other treatments, but the uptake of Cd by crops was inhibited by the precipitation of Cd with phosphate in the soil. Although soil Cd was slightly increased over the 20 years of intensive crop production, both soil and grain/kernel Cd concentrations were still below the national standards for environmental and food safety.
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References
Abdelhafez AA, Abbas HH, Abd-El-Aal RS, Kandil NF, Li JH, Mahmoud W (2012) Environmental and health impacts of successive mineral fertilization in Egypt. CLEAN-Soil Air Water 40:356–363
Cai Z-C, Qin S-W (2006) Crop yields, N use efficiency and environmental impact of a long-term ferilization experiment in Fluvor Aquic soil in north China. Acta Pedol Sin 43:885–890 (in Chinese)
Cakmak D, Saljnikov E, Mrvic V, Jakovljevic M, Marjanovic Z, Sikiric B, Maksimovic S (2010) Soil properties and trace elements contents following 40 years of phosphate fertilization. J Environ Qual 39:541–547
Cao Z-H, Zhou J-M (2008) Soil quality of China. Science Press, Beijing, China (in Chinese)
Cappuyns V, Swennen R, Niclaes M (2007) Application of the BCR sequential extraction scheme to dredged pond sediments contaminated by Pb-Zn mining: a combined geochemical and mineralogical approach. J. Geochem Explor 93:78–90
Casova K, Cerny J, Szakova J, Balik J, Tlustos P (2009) Cadmium balance in soils under different fertilization managements including sewage sludge application. Plant Soil Environ 55:353–361
Cheng SP (2003) Heavy metal pollution in China: origin, pattern and control. Environ Sci Pollut Res 10:192–198
Debreczeni K, Kismanyoky T, Berecz K, Takacs L (2000) Effect of increasing fertilizer doses on the soluble P, Cd, Pb, and Cr content of soils. Commun Soil Sci Pl Anal 31:1825–1835
EMS (1990) Chinese soil element background value. China Environmental Science Press, Beijing, China (in Chinese)
Gaj R, Schnug E (2002) Effect of organic fertilisers on the zinc and cadmium uptake of soybeans and wheat on an artificially contaminated soil. Landbauforsch Volk 52:255–258
Gao MX, Hu ZY, Wang GD, Xia X (2010) Effect of elemental sulfur supply on cadmium uptake into rice seedlings when cultivated in low and excess cadmium soils. Commun Soil Sci Pl Anal 41:990–1003
Gao XP, Flaten DN, Tenuta M, Grimmett MG, Gawalko EJ, Grant CA (2011) Soil solution dynamics and plant uptake of cadmium and zinc by durum wheat following phosphate fertilization. Plant Soil 338:423–434
Gondek K (2010) Zinc and cadmium accumulation in maize (Zea mays L.) and the concentration of mobile forms of these metals in soil after application of farmyard manure and sewage sludge. J Elementol 15:639–652
Grant CA, Bailey LD, Harapiak JT, Flore NA (2002) Effect of phosphate source, rate and cadmium content and use of Penicillium bilaii on phosphorus, zinc and cadmium concentration in durum wheat grain. J Sci Food Agric 82:301–308
Grant CA, Sheppard SC (2008) Fertilizer impacts on cadmium availability in agricultural soils and crops. Hum Ecol Risk Assess 14:210–228
Huang HG, Li TQ, Gupta DK, He ZL, Yang XE, Ni BN, Li M (2012) Heavy metal phytoextraction by Sedum alfredii is affected by continual clipping and phosphorus fertilization amendment. J Environ Sci 24:376–386
Huang P, Zhang JB, Zhu AN, Zhang CZ (2009) Acid and alkali buffer capacity of typical fluvor-aquic soil in Huang-Huai-Hai Plain. Agric Sci China 8:1378–1383
Kostandi SF, Soliman MF, Beschow H, Merbach W (2012) Rhizosphere effects of maize hybrids and N forms on Cd bioavailability in a limed soil. Arch Agron Soil Sci 58:903–913
Li BY, Zhou DM, Cang L, Zhang HL, Fan XH, Qin SW (2007) Soil micronutrient availability to crops as affected by long-term inorganic and organic fertilizer applications. Soil Tillage Res 96:166–173
Li NY, Fu QL, Zhuang P, Guo B, Zou B, Li ZA (2012) Effect of fertilizers on Cd uptake of Amaranthus hypochondriacus, a high biomass, fast growing and easily cultivated potential Cd hyperaccumulator. Int J Phytoremediat 14:162–173
Lu R-K (2000) Analysis methods in soil agrochemistry. Agricultural Science Press, Beijing, China (In Chinese)
Mar SS, Okazaki M, Motobayashi T (2012) The influence of phosphate fertilizer application levels and cultivars on cadmium uptake by Komatsuna (Brassica rapa L. var. perviridis). Soil Sci Plant Nutr 58:492–502
MEP, AQSIQ (1995) National Standards of People's Republic of China, Environmental quality standard for soilds, GB 15618-1995. Standards Press of China, Beijing, China, in Chinese
MEP, AQSIQ (2002) National Standards of People's Republic of China, Enironmental Quality Standard for Surface Water, GB 3833-2002. Standards Press of China, Beijing, China, in Chinese
MOA (2005) Lmits of eight elements in cereals, legume, tubes and its products, NY 861-2004. Ministry of Agriculture of the People's Republic of China Beijing, China (in Chinese)
Nogueira TAR, Melo WJ, Fonseca IM, Marcussi SA, Melo GMP, Marques MQ (2010) Fractionation of Zn, Cd and Pb in a tropical soil after nine-year sewage sludge applications. Pedosphere 20:545–556
Ociepa E (2011) The effect of fertilization on yielding and heavy metals uptake by maize and Virginia fanpetals (Sida hermaphrodita). Arch Environ Prot 37:123–129
Pueyo M, Rauret G, Luck D, Yli-Halla M, Muntau H, Quevauville P, Lopez-Sanchez JF (2001) Certification of the extractable contents of Cd, Cr, Cu, Ni, Pb and Zn in a freshwater sediment following a collaboratively tested and optimised three-step sequential extraction procedure. J Environ Monit 3:243–250
Richards JR, Schroder JL, Zhang HL, Basta NT, Wang YL, Payton ME (2012) Trace elements in benchmark soils of Oklahoma. Soil Sci Soc Am J 76:2031–2040
Richards JR, Zhang HL, Schroder JL, Hattey JA, Raun WR (2011) Micronutrient avaiability as affected by the long-term application of phosphorus fertilizer and organic amendments. Soil Sci Soc Am J 75:927–939
Sahuquillo A, Rauret G, Bianchi M, Rehnert A, Muntau H (2003) Mercury determination in solid phases from application of the modified BCR-sequential extraction procedure: a valuable tool for assessing its mobility in sediments. Anal Bioanal Chem 375:578–583
Schutze G, Becker R, Dammgen U, Nagel D, Schlutow A, Weigel J (2003) Assessment of risks to human health and the environment from cadmium in fertilisers. Landbauforsch 53:63–170
Shi XZ, Yu DS, Xu SX, Warner ED, Wang HJ, Sun WX, Zhao YC, Gong ZT (2010) Cross-reference for relating Genetic Soil Classification of China with WRB at different scales. Geoderma 155:344–350
Shute T, Macfie SM (2006) Cadmium and zinc accumulation in soybean: a threat to food safety? Sci Total Environ 371:63–73
Wangstrand H, Eriksson J, Oborn I (2007) Cadmium concentration in winter wheat as affected by nitrogen fertilization. Europ J Agronomy 26:209–214
Wu GH, Yang CC, Guo L, Wang ZL (2013) Cadmium contamination in Tianjin agricultural soils and sediments: relative importance of atmospheric deposition from coal combustion. Environ Geochem Health 35:405–416
Yu WT, Zhou H, Zhu XJ, Xu YG, Ma QA (2011) Field balances and recycling rates of micronutrients with various fertilization treatments in Northeast China. Nutr Cycl Agroecosyst 90:75–86
Zhang MK, Liu ZY, Wang H (2010) Use of single extraction methods to predict bioavailability of heavy metals in polluted soils to rice. Commun Soil Sci Pl Anal 41:820–831
Zhao BZ, Chen J, Zhang JB, Xin XL, Hao XY (2013) How different long-term fertilization strategies influence crop yield and soil properties in a maize field in the North China Plain. J Plant Nutr Soil Sci 176:99–109
Zhao BZ, Maeda M, Zhang JB, Zhu AN, Ozaki Y (2006) Accumulation and chemical fractionation of heavy metals in andisols after a different, 6-year fertilization management. Environ Sci Pollut Res 13:90–97
Zhao BZ, Zhang JB, Flury M, Zhu AN, Jiang QA, Bi JW (2007) Groundwater contamination with NO3-N in a wheat-corn cropping system in the north China plain. Pedosphere 17:721–731
Zhao QX, Chen YW, Belzile N, Wang M (2010) Low volume microwave digestion and direct determination of selenium in biological samples by hydride generation-atomic fluorescence spectrometry. Anal Chim Acta 665:123–128
Zhu AN, Zhang JB, Zhao BZ, Cheng ZH, Li LP (2005) Water balance and nitrate leaching losses under intensive crop production with Ochric Aquic Cambosols in North China Plain. Environ Int 31(6):904–912
Zuo YM, Zhang FS (2011) Soil and crop management strategies to prevent iron deficiency in crops. Plant Soil 339:83–95
Acknowledgments
This study was funded by National Basic Research Program of China (973 Program, 2011CB100506), China Agriculture Research System-Wheat (CARS-03-02A), and the Knowledge Innovation Program of the Chinese Academy of Sciences (KSCX2-EW-N-08). The authors would like to thank Prof. Jingfang Wang for valuable assistance.
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Wang, Q., Zhang, J., Zhao, B. et al. The influence of long-term fertilization on cadmium (Cd) accumulation in soil and its uptake by crops. Environ Sci Pollut Res 21, 10377–10385 (2014). https://doi.org/10.1007/s11356-014-2939-z
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DOI: https://doi.org/10.1007/s11356-014-2939-z