Phosphorus Over-Fertilization and Nutrient Misbalance of Irrigated Tomato Crops in Brazil

Nowaki, Rodrigo Hiyoshi Dalmazzo; Parent, Léon‐Étienne; Filho, Arthur Bernardes Cecílio; Rozane, Danilo Eduardo; Meneses, Natália Barreto; Silva, Juliana A. dos Santos da; Natale, William; Parent, Léon E.

doi:10.3389/fpls.2017.00825

Cited by 39 publications

(34 citation statements)

References 35 publications

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“…The results showed that increasing the concentration of P until 175 ppm or 200 ppm starting at 12 and 13 WAT have a number of flowers was formed. This data in line with Nowaki et al (2017) who found that the optimum P can increase some of the reproductive properties of the plants in the form of total mass of flowers, fruit production, and number of seed production of pollen per plant. Phosphorus plays a role in increasing the photosynthetic reaction in plants (Gad & Kandil, 2010).…”

Section: Number Of Flowerssupporting

confidence: 89%

“…Application of phosphorus starting from 175 ppm significantly increased Harvest Index and the concentration of phosphorus 200 ppm showed the highest Harvest Index (Table 4). According to Nowaki et al (2017) that the lower the concentration of P applied on tomato plants lead to a decrease on plants dry weight in general so that the lower plants dry weight produced mainly fruit, resulting lower harvest index values.…”

Section: Harvest Indexmentioning

confidence: 99%

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Adjustment of phosphorus concentration to increase growth and yield of cherry tomato using hydroponic drip system

Hidayat

Qurrohman²,

Syamsudin³

2018

J. Agro

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The phosphorus element plays an essential role in plant growth both at the vegetative and generative phases, so its concentration modification in the nutrient solution is necessary to stimulate vegetative growth and crop yield. The research aimed to know the influence of different phosphorus concentrations on growth and yield of cherry tomato using a hydroponic drip irrigation system, conducted from February to June 2017 at Green House Research Station of Universitas Padjajaran Jatinangor using Completely Randomized Design with five treatments and five replications. The treatments were: phosphorous concentration of 100 ppm (P/N ratio 0.4), 125 ppm (P/N ratio 0.5), 150 ppm (P/N ratio 0.6), 175 ppm (P/N ratio 0.7), and 200 ppm (P/N ratio 0.8). The results showed that the increasing concentration of phosphorus improved crops height at the end of the vegetative phase, increased the number of flowers from the beginning to the end of the generative period, was able to prevent the flower fall, enhanced harvest index and weight of tomato fruit significantly at harvest time. Application of 200 ppm phosphorus concentration can increase growth and yield of cherry tomato. Unsur fosfor berperan penting dalam pertumbuhan tanaman pada fase vegetatif maupun fase generatif. Konsentrasi unsur P pada nutrisi tanaman sangat penting untuk merangsang pertumbuhan vegetatif dan hasil panen. Penelitian ini bertujuan untuk mengetahui pengaruh ragam kosentrasi unsur posfor terhadap pertumbuhan dan hasil tanaman tomat cherry pada sistem hidroponik irigasi tetes. Penelitian telah dilaksanakan pada bulan Februari sampai Juni 2017 di Green House Universitas Padjadjaran Jatinangor menggunakan rancangan acak lengkap terdiri dari lima perlakuan dan lima ulangan. Perlakuan konsentrasi posfor, yaitu 100 ppm (rasio P/N 0,4), 125 ppm (rasio P/N 0,5), 150 ppm (rasio P/N 0,6); 175 ppm (rasio P/N 0,7), dan 200 ppm (rasio P/N 0,8). Hasil penelitian menunjukkan bahwa peningkatan konsentrasi posfor meningkatkan tinggi tanaman pada akhir fase vegetatif, meningkatkan jumlah bunga dari awal sampai akhir fase generatif, mengurangi jumlah bunga gugur, meningkatkan indeks panen dan berat buah. Aplikasi konsentrasi posfor 200 ppm dapat meningkatkan pertumbuhan dan hasil tanaman tomat cherry.

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Section: Number Of Flowerssupporting

confidence: 89%

Section: Harvest Indexmentioning

confidence: 99%

Adjustment of phosphorus concentration to increase growth and yield of cherry tomato using hydroponic drip system

Hidayat

Qurrohman²,

Syamsudin³

2018

J. Agro

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“…This result suggests that the hybrid Heinz has greater efficiency in the use of NPK fertilizers. However, Nowaki et al (2017) found no difference between the yields of tomato plants working with P in areas of high and low fertility in São Paulo state, Brazil, and these authors point out the need for balanced management of nutrients during tomato cultivation.…”

Section: Resultsmentioning

confidence: 82%

“…The nitrogen is cited as one of the main nutrients for tomato, because it constitutes organic compounds that are vital to plants and contributes to fruiting, productivity and economic profitability, but can decrease fruit firmness (Marschner, 2012). Despite being absorbed in smaller quantity and having lower concentrations in plant tissue, the phosphorus is extremely important in root formation and growth, besides increasing the commercial quality of the fruit (Mueller et al, 2013;Nowaki et al, 2017). The potassium is the most required nutrient by tomato (Prado et al, 2011) and contributes to the processes of photosynthesis, enzymatic activation and protein synthesis (Rebouças Neto et al, 2016).…”

Section: Introductionmentioning

confidence: 99%

Agronomic yield and quality of industrial tomatoes under NPK doses

Neta

Mota

Pegoraro

et al. 2020

Rev. bras. eng. agríc. ambient.

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High doses of nitrogen, phosphorus and potassium in irrigated systems may lead to an increase in the productivity of industrial tomatoes, but may also alter the final quality of the fruits. The objective of this was to evaluate the agronomic yield and post-harvest quality of industrial tomatoes, under NPK doses for climatic conditions of Northern Minas Gerais state, Brazil. The study was conducted in the city of Jaíba, MG, Brazil, in randomized block design with four repetitions in a 3 x 3 factorial scheme, consisting of three doses of N (90, 135 and 180 kg ha-1), of P (270, 405 and 540 kg ha-1) and of K (225, 337 and 450 kg ha-1), corresponding to 50, 75 and 100% of the fertilization recommendation; and three tomato hybrids: BRS Sena, Heinz 9553 and BHN 0574. The following variables were evaluated: number of bunches, number and weight of fruits, productivity and fertilizer efficiency index; besides the physico-chemical characteristics: firmness, soluble solids concentration, pH and pulp industrial yield. The hybrid Heinz 9553 showed higher weight, number of fruits, productivity and industrial yield at doses of 75 and 100% of NPK recommendation. The fertilizer doses did not interfere on the soluble solids, pH and fruit firmness of the three hybrids. The hybrid BRS Sena was not influenced by the increase of NPK and there was lower weight, number of fruits, productivity and fertilization efficiency. The hybrid BHN and Heinz hybrids can be indicated for cultivation at doses of 100 and 75% of NPK recommendation, because they promote higher agronomic yield and do not alter the post-harvest quality of the tomatoes.

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“…The P fixation by oxy-hydroxides of Fe and Al at low pH values reduces P fertilizer-use efficiency in the acidic P-fixing podzolic soils used for lowbush blueberry production [ 76 ]. However, making P fertilizer application based on soil P fixing capacity alone can result in wrong decisions [ 77 ]. Soil pH values exceeding 5.2 can decrease the yield of lowbush blueberry [ 73 ].…”

Section: Discussionmentioning

confidence: 99%

Conditioning Machine Learning Models to Adjust Lowbush Blueberry Crop Management to the Local Agroecosystem

Parent

Lafond

Paré

et al. 2020

Plants

Self Cite

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Agroecosystem conditions limit the productivity of lowbush blueberry. Our objectives were to investigate the effects on berry yield of agroecosystem and crop management variables, then to develop a recommendation system to adjust nutrient and soil management of lowbush blueberry to given local meteorological conditions. We collected 1504 observations from N-P-K fertilizer trials conducted in Quebec, Canada. The data set, that comprised soil, tissue, and meteorological data, was processed by Bayesian mixed models, machine learning, compositional data analysis, and Markov chains. Our investigative statistical models showed that meteorological indices had the greatest impact on yield. High mean temperature at flower bud opening and after fruit maturation, and total precipitation at flowering stage showed positive effects. Low mean temperature and low total precipitation before bud opening, at flowering, and by fruit maturity, as well as number of freezing days (<−5 °C) before flower bud opening, showed negative effects. Soil and tissue tests, and N-P-K fertilization showed smaller effects. Gaussian processes predicted yields from historical weather data, soil test, fertilizer dosage, and tissue test with a root-mean-square-error of 1447 kg ha−1. An in-house Markov chain algorithm optimized yields modelled by Gaussian processes from tissue test, soil test, and fertilizer dosage as conditioned to specified historical meteorological features, potentially increasing yield by a median factor of 1.5. Machine learning, compositional data analysis, and Markov chains allowed customizing nutrient management of lowbush blueberry at local scale.

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Phosphorus Over-Fertilization and Nutrient Misbalance of Irrigated Tomato Crops in Brazil

Cited by 39 publications

References 35 publications

Adjustment of phosphorus concentration to increase growth and yield of cherry tomato using hydroponic drip system

Adjustment of phosphorus concentration to increase growth and yield of cherry tomato using hydroponic drip system

Agronomic yield and quality of industrial tomatoes under NPK doses

Conditioning Machine Learning Models to Adjust Lowbush Blueberry Crop Management to the Local Agroecosystem

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