Growth, Yield and Nutrient Concentrations of Tomato as Affected by Soil Textures and Nitrogen

Biostimulants have been found effective in enhancing plant resistance toward stressful conditions. The aim of the present study was to evaluate the efficacy of selected biostimulants to overcome the negative effects of nutrient limitation on the growth performances and on the fruit quality of soilless cultivated strawberry plants. The condition of nutrient limitation was imposed by supplying the plants with only a single fertilization at transplantation and by excluding any further nutrient supply for the entire duration of the experiment (three months, from May to July). Strawberry plants were treated seven times during the period from preflowering up to berry maturation with different classes of biostimulants (humic acids, alfalfa hydrolysate, macroseaweed extract and microalga hydrolysate, amino acids alone or in combination with zinc, B-group vitamins, chitosan, and a commercial product containing silicon) at commercial dosages. The use of alfalfa hydrolysate, vitamins, chitosan, and silicon was able to promote biomass accumulation in roots (four to seven folds) and fruits (+20%) of treated plants, whereas the total leaf area increased by 15%–30%. Nutrient concentrations in leaves and roots showed variations for microelements (e.g., Fe, B, Zn, and Si) in response to biostimulant applications, whereas no significant differences were observed for macronutrient contents among treatments. Final berry yield was found around 20% higher in chitosan- and silicon-treated plants. Chitosan treatment significantly increased pulp firmness (by 20%), while a high nutritional value (e.g., phenolic compounds concentration) was observed in alfalfa- and seaweed-treated fruits (+18%–20% as compared to control). The overall outcomes of the present experiment show that selected biostimulants can be considered as a valid agronomic tool able to contrast the negative consequence of growing crops under insufficient nutritional conditions.

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Effect of Arbuscular Mycorrhiza and Temperature Control on Plant Growth, Yield, and Mineral Content of Tomato Plants Grown Hydroponically

HortScience ◽

10.21273/hortsci.48.12.1470 ◽

2013 ◽

Vol 48 (12) ◽

pp. 1470-1477 ◽

Cited By ~ 6

Author(s):

Martin Makgose Maboko ◽

Isa Bertling ◽

Christian Phillipus Du Plooy

Keyword(s):

Plant Growth ◽

Nutrient Uptake ◽

Temperature Control ◽

Mycorrhizal Fungi ◽

Nutrient Concentration ◽

Growth Yield ◽

Mineral Nutrient ◽

Nutrient Concentrations ◽

Mineral Concentration ◽

Temperature Controlled

Mycorrhizal inoculation improves nutrient uptake in a range of host plants. Insufficient nutrient uptake by plants grown hydroponically is of major environmental and economic concern. Tomato seedlings, therefore, were treated with a mycorrhizal inoculant (Mycoroot™) at transplanting to potentially enhance nutrient uptake by the plant. Then seedlings were transferred to either a temperature-controlled (TC) or a non-temperature-controlled (NTC) tunnel and maintained using the recommended (100%) or a reduced (75% and 50%) nutrient concentration. Plants grown in the NTC tunnel had significantly poorer plant growth, lower fruit mineral concentration, and lower yield compared with fruit from plants in the TC tunnel. Leaves from plants in the NTC tunnel had higher microelement concentrations than those in the TC tunnel. Highest yields were obtained from plants fertigated with 75% of the recommended nutrient concentration, and not from the 100% nutrient concentration. Application of arbuscular mycorrhizal fungi (AMF) neither enhanced plant growth, nor yield, nor fruit mineral nutrient concentrations. However, temperature control positively affected the fruit Mn and Zn concentration in the TC tunnel following AMF application.

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Annual Under-vine Cover Crops Did Not Impact Vine Growth or Fruit Composition of Mature Cool-climate ‘Riesling’ Grapevines

HortTechnology ◽

10.21273/horttech.26.1.36 ◽

2016 ◽

Vol 26 (1) ◽

pp. 36-45 ◽

Cited By ~ 5

Author(s):

Lindsay M. Jordan ◽

Thomas Björkman ◽

Justine E. Vanden Heuvel

Keyword(s):

United States ◽

Cover Crops ◽

New York State ◽

Growth Yield ◽

Bare Soil ◽

Nutrient Concentrations ◽

Wine Grape ◽

Northeastern United States ◽

Vine Growth ◽

Herbicide Use

In the cool and humid climate of the northeastern United States, vegetation is typically maintained between the rows of wine grape (Vitis vinifera) vineyards, but the area directly beneath vines is conventionally kept bare using herbicides or cultivation, to reduce competition for water and nutrients. Yet with rising concerns of herbicide resistance, environmental contamination, and soil erosion, alternatives to maintaining bare ground in vineyards should be considered. In warmer and more arid climates, using cover crops as an alternative to bare soil has sometimes resulted in reduced vine growth and yields. In more cool and humid climates, like in the northeastern United States, where conditions can promote excessive vine growth, replacing bare soil with under-vine cover crops was hypothesized to improve vine growth characteristics and fruit quality from reducing excessive vigor. This study compared three annual under-vine cover crops of resident vegetation (RES), buckwheat (BW) (Fagopyrum esculentum), and annual ryegrass (ARG) (Lolium multiflorum), planted in the 1-m-wide strip directly under vines at the start of each growing season, against the conventional weed-free under-vine row maintained with glyphosate. The experiment was established in 2011 and repeated in 2012 and 2013 in a 20-year-old block of ‘Riesling’ wine grapes (clone 198 on S04 rootstock) in a commercial vineyard in the Finger Lakes region of New York State. Harvested grapes were fermented in duplicate using standard white wine procedures. Among the four under-vine treatments, no significant differences were found in measures of vegetative growth, yield, petiole nutrient concentrations at veraison, or predawn and midday stem water potentials. Under-vine treatments were not found to significantly affect soil organic matter, aggregate stability, and nutrient concentrations. Juice characteristics were also not significantly different among treatments. In this study, the mature vines in this rain-fed ‘Riesling’ vineyard likely had a well-developed and extensive rooting system that was able to overcome any competition effects for water or nutrients from the comparatively shallow root systems of the annually established cover crops. Without any induced competition in the conditions of this study, under-vine cover crops had no effects on vine growth, yield, or juice characteristics when compared with conventional herbicide use in the under-vine row. When multidimensional scaling (MDS) analysis was used to determine differences in aroma among wine treatment replicates, treatments were found to significantly impact the perceived aromatic properties of the wines, even though no measures of growth or juice characteristics were affected. Using under-vine vegetation may be a viable alternative to conventional herbicide use for vineyard floor management in mature wine grape vineyards in cool and humid climates.

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Influence of Mineral Nutrients on Growth, Yield, Berry Quality, and Petiole Mineral Nutrient Concentrations of Table Grape

Journal of Plant Nutrition ◽

10.1080/01904160601172031 ◽

2007 ◽

Vol 30 (3) ◽

pp. 463-470 ◽

Cited By ~ 17

Author(s):

Mohammad E. Amiri ◽

Esmaeil Fallahi

Keyword(s):

Growth Yield ◽

Mineral Nutrients ◽

Table Grape ◽

Mineral Nutrient ◽

Nutrient Concentrations ◽

Berry Quality

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Effects of Post-véraison Water Deficit on ‘Pinot noir’ Yield and Nutrient Status in Leaves, Clusters, and Musts

HortScience ◽

10.21273/hortsci.49.10.1335 ◽

2014 ◽

Vol 49 (10) ◽

pp. 1335-1340 ◽

Cited By ~ 1

Author(s):

R. Paul Schreiner ◽

Jungmin Lee

Keyword(s):

Growth Yield ◽

Nutrient Status ◽

Pinot Noir ◽

Mineral Nutrient ◽

Nutrient Concentrations ◽

Sugar Accumulation ◽

Volumetric Soil Water Content ◽

Vine Growth ◽

Maturity Indices ◽

Fruit Maturity

‘Pinot noir’ grapevines were grown in a pot-in-pot system using a red-hill-soil where volumetric soil water content (θv) was carefully controlled. Four-year-old vines were supplied with one of two irrigation regimes (wet or dry) between véraison and fruit maturity and the experiment was repeated over 2 years. From véraison to harvest, vines in the wet treatment received irrigation whenever θv approached ≈15% maintaining leaf water potential (Ψleaf) above –1.0 MPa. Vines in the dry treatment received irrigation when θv approached 11% to 12% and experienced significant water stress (Ψleaf ≈–1.4 MPa) before water was re-supplied. Vines were destructively harvested at véraison and at fruit maturity to determine biomass and nutrient content in the current season’s above-ground tissues. Fruit yield, maturity indices, and must nutrient composition were measured at maturity. Irrigation did not influence vine growth in either year nor did it influence yield or fruit maturity indices. Irrigation also had no influence on leaf, whole cluster, or must mineral nutrient concentrations. Vine growth, yield, and nutrient status in leaves and musts varied by year. Vegetative growth was greater in 2007 than 2008, whereas yield and cluster weights were greater in 2008. Also in 2008, whole clusters obtained a greater proportion of dry matter and nutrients after véraison when differing irrigation treatments were imposed. Nonetheless, irrigation did not affect must chemical composition. These findings suggest that periodic post-véraison water deficits that are moderate to severe have little effect on berry nutrient and sugar accumulation in ‘Pinot noir’ cropped at typical levels for this variety.

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Effect of Zn and B on the Growth and Nutrient Uptake in Groundnut

Current Journal of Applied Science and Technology ◽

10.9734/cjast/2020/v39i130475 ◽

2020 ◽

pp. 1-10

Author(s):

Ramprosad Nandi ◽

Hasim Reja ◽

Nitin Chatterjee ◽

Animesh Ghosh Bag ◽

Gora Chand Hazra

Keyword(s):

Nutrient Uptake ◽

Leaf Area ◽

Chlorophyll Content ◽

Plant Biomass ◽

Maximum Yield ◽

Foliar Spray ◽

Growth Yield ◽

Nutrient Concentrations ◽

Growth Stages ◽

Flower Initiation

Aims: To investigate the effect of combination between foliar zinc and boron on groundnut growth, yield, nutrient uptake and its accumulation in pods. Study Design: Completely random design (CRD). Place and Duration of Study: Bidhan Chandra Krishi Viswavidyalaya, Nadia, West Bengal, India during 2016. Methodology: The pot experiment was comprised of three levels of Zn (0, 0.5 and 0.75% Zn), three levels of B (0, 0.3 and 0.45% B) and their combinations. The treatments were replicated thrice. Zn and B were applied through foliar spray twice at vegetative and flower initiation stage. Chlorophyll content, leaf area, root–shoot dry biomass, plant height, nutrient uptake and nutrient concentrations in pods were studied. Results: Foliar spray of Zn and B jointly increased the leaf area to the tune of 55% and 29% at flowering and pod formation stages, respectively. Despite sole application of B and Zn increased the leaf chlorophyll content in groundnut; the combined applications were much more prominent. Moreover, lower level of Zn combined with higher level of B significantly (p<0.05) had higher uptake of N (18.8%), P (11.5%) and K (5.9%) over higher level of sole Zn application. The improved biomass accumulation of groundnut amplified the efficient utilization of primary nutrients and resulted in higher nutrient uptake as well as their concentration in pods. Groundnut when sprayed with elevated doses of Zn and B produced the maximum yield (30.8 g/plant). Conclusion: Spraying of Zn and B increased plant biomass, leaf area, chlorophyll content noticeably and with the increase in concentration of Zn and B in spray, the increment became quite intense. The combined spray of Zn and B at critical growth stages promoted better growth and productivity of groundnut.

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Leaf Blade versus Petiole Nutrient Tests as Predictors of Nitrogen, Phosphorus, and Potassium Status of ‘Pinot Noir’ Grapevines

HortScience ◽

10.21273/hortsci11405-16 ◽

2017 ◽

Vol 52 (1) ◽

pp. 174-184 ◽

Cited By ~ 2

Author(s):

R. Paul Schreiner ◽

Carolyn F. Scagel

Keyword(s):

Leaf Blade ◽

Nutrient Deficiency ◽

Growth Yield ◽

Nutrient Status ◽

Pinot Noir ◽

Nutrient Concentrations ◽

Vine Growth ◽

Wide Range ◽

Using Data ◽

Response Variables

Grape growers rely on tissue tests of leaf blades or petioles for routine monitoring of vine nutritional health and for diagnosing potential nutrient deficiency or toxicity. There has been a long-standing debate as to which tissue better reflects the nutrient status of vines. A comparison of leaf blade and petiole nutrient concentrations was carried out to investigate which tissue better relates to vine growth, yield, and must nutrient responses of ‘Pinot noir’ grapevines to varying levels of nitrogen (N), phosphorus (P), and potassium (K) supply using data from a pot-in-pot vineyard over 4 years. Leaf blades and petioles were collected at 50% bloom and 50% veraison in each year and N, P, and K concentrations were assessed as predictors of leaf area at veraison, pruning mass at dormancy, yield, and must nutrient concentrations at fruit maturity. Data from commercial ‘Pinot noir’ vineyards were also used to investigate the relationship between leaf blade and petiole N concentrations with must N levels. Results indicated that leaf blades were superior to petioles in predicting vine growth, yield, and must yeast assimilable nitrogen (YAN) responses across a wide range of vine N status at both sampling times. Leaf blade N was a better predictor than petiole N in predicting YAN using data sets from both the pot-in-pot vineyard and commercial vineyards. Relationships between leaf blade and petiole concentrations of P and K and vine response variables generally did not differ and both tissues appeared to be equally effective in predicting P and K effects on growth, yield, and must P or K levels. Although petiole P was slightly better than leaf blade P at bloom in predicting must P levels, and models including both leaf and petiole K simultaneously as predictors relied only on leaf K. For all three nutrients, sampling at bloom and veraison had a similar predictive strength for response variables. Based on these findings, we recommend using leaf blades as opposed to petioles for diagnosing the N, P, and K status of ‘Pinot noir’.

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Effects of boron and vermicompost on growth, yield and nutrient content of Chilli (Capsicum annum L.)

Journal of Biodiversity Conservation and Bioresource Management ◽

10.3329/jbcbm.v6i1.51329 ◽

2021 ◽

Vol 6 (1) ◽

pp. 31-36

Author(s):

KS Nawrin ◽

MJ Uddin ◽

AHMZ Ali ◽

MK Rahman

Keyword(s):

Leaf Area ◽

Growth Yield ◽

Dry Weight ◽

Nutrient Content ◽

Growth And Yield ◽

Nutrient Concentrations ◽

Nutrient Accumulation ◽

Total N ◽

Capsicum Annum ◽

Total P

The effects of boron (B) and vermicompost (VC) on growth and yield of Chilli (Capsicum annum L.) and nutrient accumulation in its fruits was examined. The highest plant height (22 cm), leaf number per plant (73), leaf area (502.53 cm2/plant), dry weight (22.27g/plant), fruit length (8.97cm), fruit number per plant (6), fruit yield (11.76 g/plant) were recorded in B0.5 kg/ha + VC5 ton/ha at harvest. The results of growth and yield of Chilli varied significantly (p<0.05) and increased with time. The total nutrient concentrations in the fruits were measured and varied significantly (p<0.05). The highest concentration of total P (0.028 %), K (2.50%), S (0.20 %), Cu (8.0 mg/kg), Fe (410 mg/kg) and Mn (0.80 mg/kg) in the fruit were observed in B0.5 kg/ha +VC5 ton/ha treatment and total N (0.41 %) and Zn (3.50 mg/kg) were found in B1.5 kg/ha + VC5 ton/ha treatment. The overall best growth, yield and nutrient accumulation in the fruits of Chilli was achieved in B0.5 kg/ha + VC5 t/ha treatment. J. Biodivers. Conserv. Bioresour. Manag. 2020, 6(1): 31-36

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Effect of Cooling Root-Zone Temperature on Growth, Yield and Nutrient Uptake in Cucumber Grown in Hydroponic System During Summer Season in Cooled Greenhouse

Journal of Agricultural Science ◽

10.5539/jas.v11n1p47 ◽

2018 ◽

Vol 11 (1) ◽

pp. 47 ◽

Cited By ~ 2

Author(s):

Muthir S. Al-Rawahy ◽

Salim A. Al-Rawahy ◽

Yaseen A. Al-Mulla ◽

Saleem K. Nadaf

Keyword(s):

Nutrient Uptake ◽

Root Zone ◽

Growth Yield ◽

Nutrient Concentrations ◽

First Year ◽

Cucumis Sativus L ◽

Root Zone Temperature ◽

Hydroponic System ◽

Dry Matter Weight ◽

Zone Temperature

Optimum cool root zone temperature positively influences the production of greenhouse vegetables grown during summer/high temperature period under hydroponics system. Hence, the effect of root-zone temperature was investigated on the growth, yield and nutrient uptake of cucumber (Cucumis sativus L.) plants grown in pots filled with perlite medium under recirculating hydroponic system in greenhouse during summer period (June-August) in two consecutive years 2016/2017 and 2017/2018 using three cooling treatments-T1 (22 ºC), T2 (25 ºC) and T3 (28 ºC) and non-cooled treatment T4 (33 ºC) as control in Randomized Complete Design (RCD). All the treatments received the same nutrient concentrations. Significant (p < 0.05) differences were observed for all the characters viz. plant height, leaf number/m2, chlorophyll content, leaf area (cm2), fruit number /m2, yield (t/gh), fresh (g) and dry matter weight (g) of shoot and root at all cooled root-zone temperatures as compared to control in both the years. Plants at cooled root-zone temperature (RZT) of 22 ºC gave high number of fruits/m2 to the extent of 180 in 2016/2017 and 220 in 2017/2018 followed by that at 25 ºC (167, 221) and 28 ºC (178, 143) as compared to those in control (33 ºC) (101,133) in both the years. Similarly, highest fruit yields were found at cooled RZT of 22 ºC (5.0 t/gh) and 28 ºC (4.7 t/gh) in the first year and 22 ºC (6.1 t/gh) and 25 ºC (6.0 t/gh) in the second year. The plants at cooled RZT responded positively and significantly (p < 0.05) in the uptake of all nutrient elements in shoots and roots in comparison with those at non-cooled RZT in both years.

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Influence of Poultry Manure Rates and Spacing on Growth, Yield, Nutrient Concentration , Uptake and Proximate Composition of Onion (Allium cepa L.)

Notulae Scientia Biologicae ◽

10.15835/nsb10110230 ◽

2018 ◽

Vol 10 (1) ◽

pp. 117-123

Author(s):

Ehizogie Joyce FALODUN ◽

Racheal EGHAREVBA

Keyword(s):

Proximate Composition ◽

Nutrient Concentration ◽

Growth Parameters ◽

Organic Fertilizer ◽

Poultry Manure ◽

Growth Yield ◽

Leaf Thickness ◽

Growth And Yield ◽

Nutrient Concentrations ◽

Four Levels

Plant spacing determines to a greater extent crop performance in terms of growth and yield. The production of crop with organic fertilizer also plays a vital role in organic agriculture. Field studies were conducted to evaluate the effects of spacing and poultry manure on the growth, yield and quality of onion. Three spacing regimes were carried out consisting of (15cm x 15 cm , 20 cm x 20 cm and 25 cm x 25 cm) and four levels of poultry manure at ( 0, 5, 10 and 15 t /ha ). The effects of spacing and poultry manure were evaluated for 2 years based on plant growth, yield, nutrient concentration, uptake and proximate composition of onion plant. Leaf thickness, bulb and shoot fresh weights were significantly increased by the wider spacing of 20 cm x 20 cm and 25 cm x 25 cm, compared with the narrower spacing of 15cm x 15 cm in both seasons. However, highest total dry yield (1.82 and 1.58) t /ha, shoot yield (2.31 and 1.32) t /ha and total fresh yield (13.69 and 12.55) t/ha were obtained with the spacing of 20cm x 20 cm in both years. Similarly, application of poultry manure increased leaf thickness, bulb and shoot fresh weights and yields compared with the control. Generally, using 10 t/ha poultry manure has a superior effect on proximate composition and most of growth parameters and yield components achieved the highest nutrient concentrations and uptake on most of the macro and micronutrients in leaves and bulbs as compared with the control in both years.

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