Advanced search
Publication Cover
International Journal of Fruit Science Volume 22, 2022 - Issue 1
Submit an article Journal homepage
1,311
Views
1
CrossRef citations to date
0
Altmetric
Research Article

Microelements Changes in Leaves and Fruits of Raspberry (Rubus idaeus L.) Under the Influence of Ameliorative Measures

Biljana B. Sikirića Institute of Soil Science, Belgrade, SerbiaCorrespondence[email protected]
View further author information
,
Olivera S. Stajković-Srbinovića Institute of Soil Science, Belgrade, SerbiaView further author information
,
Elmira R. Saljnikova Institute of Soil Science, Belgrade, Serbia;b Mitscherlich Academy of Soil Fertility (MITAK), Paulinenaue, GermanyORCID Iconhttps://orcid.org/0000-0002-6497-2066View further author information
ORCID Icon,
Andrey V. Litvinovichc Agrophysical Research Institute, Laboratory of Soil Amelioration, St. Petersburg, Russia;d St. Petersburg State Agrarian University, St. Petersburg, RussiaORCID Iconhttps://orcid.org/0000-0002-4580-1974View further author information
ORCID Icon,
Marina V. Jovkovića Institute of Soil Science, Belgrade, SerbiaView further author information
&
Vesna V. Mrvića Institute of Soil Science, Belgrade, SerbiaView further author information
Pages 358-369 | Published online: 11 Mar 2022

References

  • Alloway, B.J. 2008. Micronutrient Deficiencies in Global Crop Production. Springer, Dordrecht.
  • Ankerman, D., and R. Large. 1974. Soil and plant analysis. Tech. Bull. A&L. Agricultural laboratories. Inc, New York, USA.
  • Barman, M., L.M. Shukla, S.P. Datta, and R.K. Rattan. 2014. Effect of applied lime and boron on the availability of nutrients in an acid soil. J. Plant Nutr 37(3):357–373. doi: 10.1080/01904167.2013.859698.
  • Barnhisel, R., and P.M. Bertsch. 1982. Aluminium, p. 275–300. In: A.L. Page, R.H. Miller, and D.R. Keeney (eds.). Methods of Soil Analysis Part 2: Chemical and microbiological properties. SSSA, Madison, WI.
  • Brdar-Jokanović, M. 2020. Boron Toxicity and Deficiency in Agricultural Plants. Int. J Mol. Sci 21(4):1424. doi: 10.3390/ijms21041424.
  • Broadley, M., P. Brown, I. Cakmak, Z. Rengel, and F.E. Zhao. 2012. Functional of nutrients: Micronutrients, p. 191–248. In: P. Marschner (ed.). Marschner’s mineral nutrition of higher plants. Elsevier, London.
  • Bročić, Z. 1994. Uticaj organskiI i mineralnih đubriIa i vremena obrade na fiziIke i hemijske promene u zemljIštu i prinos kukuruza. Doktorska disert. Univerzitet u Beogradu, Poljoprivredni fakultet Zemun, 1–185.
  • Buskiene, L., and N. Uselis. 2008. The influence of nitrogen and potassium fertilizers on the growth and yield of raspberries cv. ‘Polana. Agron. Res 6(1):27–35.
  • Caires, E.F., P.R.S. Pereira Filho, R. Zardo Filho, and C.E. Feldhaus. 2008. Soil acidity and aluminium toxicity as affected by surface liming and cover oat residues under a no-till system. Soil Use Manage 24(3):302–309. doi: 10.1111/j.1475-2743.2008.00166.x.
  • Chapman, H.D., and P.F. Pratt. 1961. Methods of Analysis for Soil, Plants and Water. University of California, Berkeley.
  • De Kock, P.C. 1981. Iron nutrition under conditions of stress. J. Plant Nutr 3(1–4):513–521. doi: 10.1080/01904168109362857.
  • Dible, W.T., E. Truog, and K.C. Berger. 1954. Boron determination in soils and plants: Simplified curcumin procedure. Anal. Chem 26(2):418–421. doi: 10.1021/ac60086a047.
  • Dresler, S., W. Bednarek, P. Tkaczyk, and B. Hawrylak-Nowak. 2015. Estimation of the macro- and micronutrient status of raspberries grown in the Lublin region. Folia Horticulture 27(1):53–62. doi: 10.1515/fhort-2015-0014.
  • Dugalić, G.S., S. Katić, B. Vasiljević, B. Gajić, Lazarević, and I. Đalović. 2006. Effects of liming on changes in pseudogley agrochemical properties and alfalfa yield. Acta Biol Yugoslav, Zemljište Biljka 55:249–257.
  • Džamić, R., and D. Stevanović. 2000. Agrochemistry. University of Belgrade, Faculty of Agricuture. Partenon, Belgrade. (In Serbian)
  • Edmeades, D.C., and A.M. Ridley. 2003. Using lime to ameliorate topsoil and subsoil acidity, p. 297–336. In: Z. Rengel ed. Handbook of soil acidity. 2003. Marcel Dekker Inc., New York.
  • Fageria, N.K., V.C. Baligar, and R.B. Clark. 2002. Micronutrients in crop production. Adv. Agron 77(1):185–268.
  • Fageria, N.K., and A. Nascente. 2014. Management of Soil Acidity of South American Soils for Sustainable Crop Production. Adv. Agron 128:221–275.
  • Foy, C.D., H.N. Lafever, J.W. Schwartz, and A.L.E. Fleming. 1974. Aluminum Tolerance of Wheat Cultivars Related to Region of Origin 1. Agron. J 66(6):751–758. doi: 10.2134/agronj1974.00021962006600060012x.
  • Ginocchio, R., P.H. Rodríguez, R. Badilla-Ohlbaum, H.E. Allen, and G.E. Lagos. 2002. Effect of soil copper content and pH on copper uptake of selected vegetables grown under controlled conditions. Environ. Toxicol. Chem. 21(8):1736–1744. PMID: 12152777 doi:10.1002/etc.5620210828.
  • Grewal, H.S., and R. Williams. 2003. Liming and Cultivar Affect Root Growth, Nodulation, Leaf to Stem Ratio, Herbage Yield and Elemental Composition of Alfalfa on an Acid Soil. J. Plant Nutr 268(8):1683–1696. doi: 10.1081/PLN-120022381.
  • Gupta, U.C. 1993. Factors affecting boron uptake by plants, p. 87–104. In: U.C. Gupta (ed.). Boron and its role in crop production. CRC Press, Ann Arbor, Mich.
  • Hanson, E. 1996. Fertilizing Fruit Crops. Horticultural Extension Bulletin E-852. Department of Horticulture, Michigan State University, East Lansing. https://efotg.sc.egov.usda.gov/references/Agency/MI/Archived_MSUE_852_Fertilizing_Fruit_Crops_110630.pdf Accessed 30 1 2020
  • Järvan, M., and P. Poldma. 2004. Content of plant nutrients in vegetables depending on various lime materials used for neutralising bog peat. Agron. Res 2:39–48.
  • Karaklajić-Stajić, Ž., I.S. Glišić, D.J. Ružić, T. Vujović, and M. Pešaković. 2012. Microelements content in leaves of raspberry cv. Willamette as affected by foliar nutrition and substrates. Hortic. Sci 39(No. 2):67–73. doi: 10.17221/80/2011-HORTSCI.
  • Kastori, E.R. 1990. Neophodni mikroelementi, fiziološka Iloga i značaj u biljnoj proizvodnji. Naučna knjiga, Beograd.
  • Kirkby, E.A., and V. Romheld. 2004. Proceedings No 543. York, UK: International Fertiliser Society. 1–52.
  • Kowalenko, C.G. 2005. Accumulation and distribution of micronutrients in Willamette red raspberry plants. Can. J. Plant Sci 85(1):179–191. doi: 10.4141/P03-107.
  • Krug, B.A., B.E. Whipker, I. McCall, and J. Frantz. 2011. Boron distribution and the effect of lime on boron uptake by pansy, petunia and gerbera plants. Acta Hortic. 891 . 135–140. doi:10.17660/ActaHortic.2011.891.14.
  • Lanauskas, J., N. Uselis, A. Valiuškaite, and P. Viškelis. 2006. Effect of foliar and soil applied fertilizers on strawberry healthiness, yield and berry quality. Agron. Res 4:247–250.
  • Lehto, T., and E. Malkonen. 1994. Effects of liming and boron fertilization on boron uptake of Picea abies. Plant Soil 163(1):55–64. doi: 10.1007/BF00033940.
  • Lenartowicz, W. 1986. The influence of fertilization on the quality of small fruits. Part V. The influence of mineral fertilization on the content of mineral elements elements in raspberry fruit. Fruit Sci. Reports (Poland) 13:175–184.
  • Lutz, J.A., S.F. Genter, and G.W. Howkins. 1972. Effect of soil pH on element concentration and uptake by maize. II Cu, B, Zn, Mn, Mo, Al and Fe. Agron. J. Journal de Physiologie 64(6):583–585.
  • Michalk, D.L., and Z.K. Huang. 1992. Response of subterranean clover (Trifolium subterraneum) to lime, magnesium, and boron on acid infertile soil in subtropical China. Fert. Res 32(2):249–257. doi: 10.1007/BF01048787.
  • Milinković, M., D. Vranić, M. Đurić, and S. Paunović. 2021. Chemical composition of organically and conventionally grown fruits of raspberry (Rubus idaeus L.) cv. Willamette. Acta Agriculturae Serbica 26(51):83‒88.
  • Millaleo, R., M. Reyes-Diaz, A.G. Ivanov, M.L. Mora, and M. Alberdi. 2010. Manganese as essential and toxic element for plants: Transport, accumulation and resistance mechanisms. J. Soil Sci. Plant Nutr 10(4):470–481. doi: 10.4067/S0718-95162010000200008.
  • Mišić, P., and M. Nikolić. 2003. Jagodaste voćke. Izdavač: Institut za istraživanja u poljoprivredi SRBIJA. (In Serbian)
  • Mkhonza, N.P., N.N. Buthelezi-Dube, and P. Muchaonyerwa. 2020. Effects of lime application on nitrogen and phosphorus availability in humic soils. Sci. Rep 10(1):8634. doi: 10.1038/s41598-020-65501-3.
  • Moreira, S.G., L.I. Prochnow, V. Pauletti, B.M. Silva, J. de C.kiehl, and C.G.M.E. Silva. 2017. Effect of liming on micronutrient availability to soybean grown in soil under different lengths of time under no tillage. Acta Sci. Agron 39(1):89–97. doi: 10.4025/actasciagron.v39i1.30691.
  • Negreanu-Pirjol, B., T. Negreanu-Pirjol, R. Sirbu, and D.R. Popoviciu. 2019. Bioaccumulation and Effects of Aluminium on Plant Growth in Three Culture Plants Species. Rev. Chim 70(2):602–604. doi: 10.37358/RC.19.2.6964.
  • Prodromu, K.P. 2004. Boron adsorption by amorphous Al(OH)3 in the presence of low molecular weight organic acids. Agrochimica 48(3–4):172–176.
  • Ramaškevičiene, A., E. Kupčinskiene, and A. Sliesaravičius. 2002. Evaluation of growth dynamics of Lithuanian cultivar of Hordeum sativum ssp. distichum L. after treatment with aluminium. Ekologija (Vilnius) 2:12–17.
  • Rosolem, C.A., and T. Bíscaro. 2007. Adsorção e lixiviação de boro em Latossolo Vermelho-Amarelo. Pesquisa Agropecuária Brasileira 42(10):1473–1478. doi: 10.1590/S0100-204X2007001000015.
  • Šapić, S., M. Jakšić, and D. Stojković. 2020. The raspberry commodity exchange In Serbia: An exploratory research of Producers’ attitudes. Ekonomika preduzeca 3-4(3–4):215–228. doi: 10.5937/EKOPRE2004215S.
  • Sharma, R.P., M. Singh, and J.P. Sharma. 2003. Correlation studies on micronutrients vis-à-vis soil properties in some soils of Nagaur district in semi-arid region of Rajasthan. J. Indian Soc. Soil Sci 51(4):522–527.
  • Sikirić, B., O. Stajković-Srbinović, D. Čakmak, D. Delić, N. Koković, L. Kostić-Kravljanac, and V. Mrvić. 2015. Macronutrient contents in the leaves and fruits of red raspberry as affected by liming in an extremely acid soil. Plant Soil Environ. 61(1):23–28. doi: 10.17221/756/2014-PSE.
  • Sikirić, B., M. Vesna, D. Stevanović, S. Maksimović, O. Stajković, and D. Bogdanović. 2009. The Effects of calcification, Urea and Salts on Fe, Mn and Al Contens in the Soil and Raspberry Leaves. Agrochimica 53:250–259.
  • Soltanpour, P.N., G.W. Johnson, S.M. Workman, J.J. Bentonjones, and R.O. Miller. 1996. Inductively coupled plasma emission spectrometry and inductively coupled plasma mass spectrometry, p. 91–139. In: D.L. Sparks (ed.), Vol. 2. Methods of Soil Analysis. SSSA, Madison, Wi. Part.
  • Steiner, F., and M.C. Lana. 2013. Effect of pH on boron adsorption in some soils of Paraná, Brazil. Chil. J. Agric. Res 73(2):101–176.
  • Stevanović, D., L. Martinović, and B. Šalipurović. 2003. Stanje i promene agrohemijskih karakteristika zemljišta u malinjacima na području Arilja. Jugoslovensko vocarstvo 147-148:135–141.
  • Tešović, Z., and I. Dulić. 1989. Microement levels in the fruits of red raspberry (Rubus idaeus L) cultivars and selections. Acta Hortic. (ISHS) 262:327–332.
  • Ubavić, M.R., R. Kastori, Oljača, and M. Marković. 2001. Ishrana voćaka. Naučno voćarsko društvo Republike Srpske i Poljoprivredni fakultet u Banjaluci. Banjaluka: Naučno voćarsko društvo Republike Srpske i Poljoprivredni fakultet u Banjaluci.
  • Voight, P.W., and T.E. Staley. 2004. Selection for Aluminium and Acid – Soil Resistance in White Clover. Crop Sci. 44:38–48.
  • Von Uexkull, H.R., and E. Mutert. 1995. Global extent, development and economic impact of acid soils. Plant Soil 171(1):1–15. doi: 10.1007/BF00009558.
  • WRB. 2014. World reference base for soil resources. World Soil Resources Reports No. 106, p. 113. http://www.fao.org/3/i3794en/I3794en.pdf Accessed 30 1 2022

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.