Abstract
The northeast region is the main producer of melons in Brazil. Soils under melon cultivation in this region are mainly pH-neutral and sandy, and hence prone to respond to Si fertilization, but there are no studies investigating Si application and melon responses in such an important producing area. To address this, here we carried out a field experiment to evaluate the effects of applying a diatomaceous earth-based fertilizer to melon grown on a Si-depleted soil from northeastern Brazil. The yield, weight, number, and quality of fruits, as well as the accumulation of Si and nutrients in melon leaves were evaluated. We found that Si fertilizer application increased the number, weight, and tonnage of melon fruits. This improvement in yield was related to an enhanced Si and nutrient uptake (N, P, K, Ca, Mg, Fe, Mn and Zn) by melon plants with the addition of silicon. Applying Si to soil did not significantly improve the pulp thickness, pulp firmness or soluble solids of melon fruits, despite a trend towards increased pulp thickness and soluble solids. The benefits of Si application were clearly observed to melon grown in sandy soils of northeast Brazil, but careful dose recommendation must be observed to make the practice cost-efficient and sustainable.
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References
Abdalla MM (2010) Sustainable effects of diatomite on the growth criteria and phytochemical contents of Vicia faba plants. Agric Biol J North Am 1:1076–1089
Ahmed AH, Harb EM, Higazy MA, Morgan SH (2008) Effect of silicon and boron foliar applications on wheat plants grown under saline soil conditions. Int J Agric Res 3:1–26
Angin I, Kose M, Aslantas R (2011) Diatomite on growth of strawberry. Pak J Bot 43:573–577
Artyszak A (2018) Effect of silicon fertilization on crop yield quantity and quality - a literature review in Europe. Plants. 7. https://doi.org/10.3390/plants7030054
Brown TH, Mahler RL (1987) Effects of phosphorus and acidity on levels of silica extracted from a Palouse silt loam. Soil Sci Soc Am J 51:674–677
Camargo MS, Rocha G, Korndörfer GH (2013) Silicate fertilization of tropical soils: silicon availability and recovery index of sugarcane. Rev Bras Cienc Solo 37:23–30
Castro GSA, Crusciol CAC, Costa CHM, Ferrari Neto J, Mancuso MAC (2016) Surface application of limestone and calcium-magnesium silicate in a tropical no-tillage system. J Soil Sci Plant Nutr 16:362–379
Das KK, Swamy GSK, Biswas D, Chnaniya KK (2017) Response of soil application of diatomaceous earth as a source of silicon on leaf nutrient status of guava. Int J Curr Microbiol App Sci (4):394–1399
Elliott CL, Snyder GH (1991) Autoclave-induced digestion for the colometric determination of silicon in rice straw. J Agric Food Chem 39(6):1118–1119
Embrapa (2009) Manual de análises químicas de solos, plantas e fertilizantes. Embrapa Informação e Tecnologia, Brasília
Epstein E (1999) Silicon. Annu Rev Plant Physiol 50:641–664
Ferreira HA, Nascimento CWA, Datnoff LE, Nunes GHS, Preston W, Souza EB, Mariano RLR (2015) Effects of silicon on resistance to bacterial fruit blotch and growth of melon. Crop Prot 78:277–283
Frantz JM, Locke JC, Datnoff L, Omer M, Widrig A, Sturtz D, Horst L, Krause CR (2008) Detection, distribution, and quantification of silicon in floricultural crops utilizing three distinct analytical methods. Commun Soil Sci Plant Anal 39(17–18):2734–2751
Greger M, Landberg T, Vaculík M (2018) Silicon influences soil availability and accumulation of mineral nutrients in various plant species. Plants. 7. https://doi.org/10.3390/plants7020041
Heckman J (2013) Silicon: a beneficial substance. Better Crops 4:14–16
Hernandez-Apaolaza L (2014) Can silicon partially alleviate micronutrient deficiency in plants? A review. Planta 240:447–458
Hogendorp BK, Cloyd RA, Swiader JM (2012) Determination of silicon concentration in some horticultural plants. HortScience 47:1593–1595
IBGE (2018) Produção agrícola municipal: culturas temporárias e permanentes, IBGE. http://www.ibge.gov.br/home/estatistica/economia/pam/2010/default.shtm. Accessed 17 Dec 2018
Jana S, Jeong BR (2014) Silicon: the most under-appreciated element in horticultural crops. Trends Hort Res 4:1–19
Keeping MG (2017) Uptake of silicon by sugarcane from applied sources may not reflect plant-available soil silicon and total silicon content of sources. Front Plant Sci 8:760
Kiryacou MC, Leskovar DI, Colla G, Rouphael Y (2018) Watermelon and melon fruit quality: the genotypic and agro-environmental factors implicated. Sci Hortic 234:393–408
Kleiber T, Bosiacki M, Bres W (2015) The effect of choline-stabilized orthosilic acid application on tomato grown under increasing Mn stress. J Elem 20:897–910
Korndörfer GH, Snyder GH, Ulloa M, Powell G, Datnoff LE (2001) Calibration of soil and plant silicone analysis for rice production. J Plant Nutr 24:1071–1084
Liang Y, Si J, Romheld V (2005) Silicon uptake and transport is an active process in Cucumis sativa. New Phytol 167:797–804
Ma JF, Takahashi E (1990) The effect of silicic acid on rice in a P-deficient soil. Plant Soil 126:121–125
Marodin JC, Resende JTV, Morales RGF, Silva MLS, Galvão AG, Zanin DS (2014) Yield of tomato fruits in relation to silicon sources and rates. Hortic Bras 32:220–224
Metson AJ, Gibson EJ, Hunt JJ, Saunders WMH (1979) Seasonal variations in chemical composition of pasture. N Z J Agric Res 22:309–318
Meyer JH, Keeping MG (2001) Chapter 16 Past, present and future research of the role of silicon for sugarcane in southern Africa. In: Datnoff LE, Snyder GH, Korndörfer GH (eds) Past, present and future research of the role silicon for sugarcane in southern Africa1st edn. Amsterdam, Elsevier
Mitani N, Yamaji N, Ago Y, Iwasaki K, Ma JF (2011) Isolation and functional characterization of an influx silicon transporter in two pumpkins cultivars contrasting in silicon accumulation. Plant J 66:231–240
Neu S, Schaller J, Dudel GD (2017) Silicon availability modifies nutrient use efficiency and content, C:N:P stoichiometry, and productivity of winter wheat (Triticum aestivum L). Sci Rep 7:1–8
Ouellette S, Goyette MH, Labbé C, Laur J, Gaudreau L, Gosselin A, Dorais M, Deshmukh RK, Bélanger RR (2017) Silicon transporters and effects of silicon amendments in strawberry under high tunnel and field conditions. Front Plant Sci 8:949
Pati S, Pal B, Badole S, Hazra GC, Mandal B (2016) Effect of silicon fertilization on growth, yield, and nutrient uptake of rice. Commun Soil Sci Plant Anal 47:284–290
Prakash NB, Anitha MS, Sandhya K (2016) Behaviour of different levels and grades of diatomite as silicon source in acidic and alkaline soils. Silicon. https://doi.org/10.1007/s12633-015-9373-9
Prychid CJ, Rudall PJ, Gregory M (2004) Systematics and biology of silica bodies in monocotyledons. Bot Rev 69:377–440
Savant NK, Datnoff LE, Snyder GH (1997) Depletion of plant-available silicon in soils: a possible cause of declining rice yields. Commun Soil Sci Plant Anal 28:1245–1252
Singh AK, Singh R, Singh K (2005) Growth, yield, and economics of rice (Oryza sativa) as influenced by level and time of silicon application. Indian J Agron 50:190–193
Sobral MF, Nascimento CWA, Cunha KPV, Ferreira HA, Silva AJ, Silva FBV (2011) Basic slag and its effects on the concentration of nutrients and heavy metals in sugarcane. Rev Bras Eng Agric Ambient 15:867–862
Takahashi E, Ma JF, Miyake Y (1990) The possibility of silicon as essential element for higher plants. Comments Agric Food Chem 2:99–122
White B, Tubana BS, Babu T, Mascagni HJR, Agostinho F, Datnoff LE, Harrison S (2017) Effect of silicate slag application on wheat grown under two nitrogen rates. Plants. 6. https://doi.org/10.3390/plants6040047
Zulkarami B, Ashrafuzzaman M, Razi M (2010) Morpho-physiological growth, yield and fruit quality of rock melon as affected by growing media and electrical conductivity. J Food Agric Environ 8(1):249–252
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do Nascimento, C.W.A., de Souza Nunes, G.H., Preston, H.A.F. et al. Influence of Silicon Fertilization on Nutrient Accumulation, Yield and Fruit Quality of Melon Grown in Northeastern Brazil. Silicon 12, 937–943 (2020). https://doi.org/10.1007/s12633-019-00187-5
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DOI: https://doi.org/10.1007/s12633-019-00187-5