Morphoanatomical characteristics of leaves of Anacardium othonianum seedlings subjected to different nitrogen doses under hydroponic conditions

2017 ◽  
Vol 65 (7) ◽  
pp. 524
Author(s):  
Layara A. Bessa ◽  
Marialva A. Moreira ◽  
Fabiano G. Silva ◽  
Luciana C. Vitorino ◽  
Cássia L. Rodrigues ◽  
...  
Keyword(s):  
Secondary Metabolism ◽  
Nutrient Solution ◽  
Stomatal Density ◽  
Tree Seedlings ◽  
Anatomical Structures ◽  
Quantitative Anatomy ◽  
Essential Nutrient ◽  
N Dose ◽  
Cashew Tree ◽  
Hydroponic Conditions

Nitrogen is an essential nutrient that plants generally require in large amounts. Knowing the nitrogen dose that stimulates primary and secondary metabolic pathways is important for the management of nitrogen fertilisation in plants in general; however, this information is still unavailable for seedlings of the cerrado cashew tree. Based on the hypothesis that the availability of nitrogen for Anacardium othonianum Rizz. seedlings can affect can affect the development of anatomical structures, as well as the synthesis of secondary metabolism compounds in leaves, an experiment was conducted to determine the qualitative and quantitative anatomy this tissue collected from plants of this species subjected to N doses of 0, 2.5, 5.0, 7.5, 10.0, 12.5, and 15.0 mmol L−1 in nutrient solution and evaluated the effect at 30 and 90 days after transplanting (DAT). The largest leaf morphoanatomical changes were observed under the doses of 0 and 15.0 mmol L−1 of N. The lowest stomatal density being observed in the plants exposed to an N dose of 15 mmol L−1. The level of flavonoids was not influenced by the availability of N in the solution; however, the absence of nitrogen directly affected the accumulation of phenolic compounds, alkaloids and polysaccharides present in the leaves, whereas the doses of 7.5, 10.0 and 12.5 mmol L−1 were essential to stimulate the presence of this latter compound in cerrado-cashew-tree seedlings maintained in nutrient solution. Regarding the epochs of evaluation, effect was observed only for the thickness of the adaxial epidermis. These data confirm the hypothesis that the leaf anatomy as well as the accumulation of secondary metabolism compounds in leaves of A. ohonianum can be modified because of the availability of N to the plant.

scholarly journals Potassium Fertigation to Enhance the Performance of Hypoxis hemerocallidea

HortScience ◽  
2021 ◽  
pp. 1-9
Author(s):  
Patience Seyram Akakpo ◽  
Moosa Mahmood Sedibe ◽  
Bello Zaid ◽  
Zenzile P. Khetsha ◽  
Mokgaputsiwa P. Theka-Kutumela ◽  
...  
Keyword(s):  
Nutrient Solution ◽  
Analysis Data ◽  
Dry Mass ◽  
Ionic Balance ◽  
Fresh Weight ◽  
Primary Metabolite ◽  
Essential Nutrient ◽  
Effect On Yield ◽  
Metabolite Content ◽  
Positive Effect

Potassium (K) is an essential nutrient in plant metabolism, ionic balance, and stress resistance. In this study, the effects of K on agronomic attributes and on mineral and primary metabolite content in African potato were determined. K was administered hydroponically at four concentrations (4.00, 6.00, 8.00, and 10.00 meq·L−1) using Steiner’s universal nutrient solution. Chlorophyll content (CHL), leaf area (LA), fresh corm mass (FCM), number of roots (NR), root fresh weight (RFM), and root dry mass (RDM) were measured 18, 32, and 40 weeks after transplanting. Mineral analysis data were collected at 18 weeks, and primary metabolite data were collected at 32 weeks. Significant effects of K were observed after 18 weeks, and all test concentrations had a positive effect on yield. Calcium and boron significantly accumulated in the corm at 4.00 meq·L−1 K. Alanine and malic acid were the only metabolites affected by K concentrations. More minerals accumulated in the corm at 4.00 meq·L−1 K, whereas at 10.00 meq·L−1 K, more minerals clustered in the leaf. K applied at 4.00 meq·L−1 is recommended when growing African potato using a nutrient solution to improve corm mineral and metabolite accumulation.

scholarly journals Influence of Mean Leaf Angles and Irrigation Volumes on Water Capture, Leaching, and Growth of Tropical Tree Seedlings

Forests ◽  
2020 ◽  
Vol 11 (11) ◽  
pp. 1198
Author(s):  
Richardson Barbosa Gomes da Silva ◽  
Mônica Moreno Gabira ◽  
Débora Zanoni do Prado ◽  
Gláucia Uesugi ◽  
Danilo Simões ◽  
...  
Keyword(s):  
Nutrient Solution ◽  
Irrigation Water ◽  
Projection Area ◽  
Leaf Angle ◽  
Tree Seedlings ◽  
System Quality ◽  
Tree Seedling ◽  
The Mean ◽  
Crown Projection Area ◽  
Irrigation Volume

Research Highlights: The mean leaf angle and crown projection area can be used as criteria for grouping tree seedling species in different irrigation zones in tree nurseries with overhead microsprinkler systems, preventing water and fertilizer waste, and increasing growth. Background and Objectives: There are important gaps in current functional knowledge about how plant architecture, especially the mean leaf angles of tree seedlings, affect water and nutrient solution capture in overhead microsprinkler systems. These gaps contribute to water and fertilizer waste in tree nurseries. This research aimed to ascertain how mean leaf angles affect irrigation water capture, leaching, and the growth of tree seedlings given different volumes of irrigation. Materials and Methods: Nine species of tree seedlings with different mean leaf angles were submitted to four irrigation volumes (8, 10, 12, and 14 mm) applied daily by overhead microsprinklers in a split-plot design completely randomized. The variables leaching fraction, height, stem diameter, shoot, root, and total dry mass, Dickson quality index, crown projection area, root system quality, and leachate electrical conductivity were evaluated. Results: For species with mean leaf angles of −54, 31, 38, 42, 55, 57, and 58°, the 8 mm irrigation volume was sufficient to produce greater growth and less leaching. For species with angles of −56 and −14°, the 14 mm irrigation volume was required to produce greater growth. Conclusions: The tree seedling species with positive mean leaf angles facilitate irrigation water and nutrient solution capture, allowing the application of lower irrigation volume. On the other hand, some tree seedling species with negative mean leaf angles hinder irrigation water and nutrient solution capture, requiring the application of higher irrigation volume. When the tree seedling species have a negative mean leaf angle, but the crown projection area is small, the difficulty of water and nutrient solution reaches directly the substrate is attenuated.

scholarly journals Antioxidant Protection of Photosynthesis in Two Cashew Progenies Under Salt Stress

2018 ◽  
Vol 10 (10) ◽  
pp. 388
Author(s):  
Anselmo F. da Silva ◽  
Valéria F. de O. Sousa ◽  
Gisele L. dos Santos ◽  
Eugênio S. Araújo Júnior ◽  
Sérgio L. F. da Silva ◽  
...  
Keyword(s):  
Salt Stress ◽  
Quantum Efficiency ◽  
Salinity Stress ◽  
Intercellular Co2 Concentration ◽  
Co2 Concentration ◽  
Co2 Assimilation ◽  
Photochemical Activity ◽  
Photochemical Quenching ◽  
Tree Seedlings ◽  
Cashew Tree

The present work evaluated the indicators of photosynthetic efficiency and antioxidative protection in cashew tree seedlings subjected to salinity stress. The study was conducted with seedlings of two advanced dwarf cashew clones (CCP09 and CCP76) subjected to salt stress with increasing doses of NaCl (0, control; 25; 50; 75; 100 mM) in the nutrient solution for 30 days under greenhouse conditions. The variables of gas exchange, CO2 assimilation (PN), stomatal conductance (gS), transpiration (E), intercellular CO2 concentration (CI), photochemical activity, potential quantum efficiency (Fv/Fm), effective quantum efficiency (ΔF/Fm’) of photosystem II (PSII), photochemical quenching (qP), non-photochemical quenching (NPQ) electron transport rate (ETR) as well as the indicators of damage and oxidative protection were measured. Under these conditions, there was an intense accumulation Na+ associated with a reduction in the K+/Na+ ratio in the leaves of both clones in response to salt, with higher values for this ratio in clone CCP09 than in CCP76 the highest concentration of NaCl (100 mM). Salinity reduced PN, gS and E in the two clones evaluated, with lower reductions in CCP09 than in CCP76 at the highest salt dose. Instantaneous carboxylation (PN/CI) and water use (PN/E) efficiencies were strongly restricted by salinity but were less affected in CCP09 than in CCP76. Salinity stress also increased hydrogen peroxide (H2O2) levels in CCP09, whereas lipid peroxidation decreased in both progenies. The clones presented specific antioxidant responses due to greater enzymatic and non-enzymatic activity in CCP76, in addition to the activity of phenol peroxidase (POX) in CCP09.

scholarly journals Drought and salinity affect leaf and root anatomical structures in three maize genotypes

2018 ◽  
Vol 16 (1) ◽  
pp. 47-55 ◽  
Author(s):  
Md Injamum Ul Hoque ◽  
Md Nesar Uddin ◽  
Md Solaiman Ali Fakir ◽  
Md Rasel
Keyword(s):  
Drought Stress ◽  
Root Diameter ◽  
Maize Production ◽  
Anatomical Structures ◽  
Randomized Design ◽  
Maize Genotypes ◽  
Salt And Drought Stress ◽  
Hybrid Maize ◽  
Hydroponic Conditions ◽  
Salt And Drought Stresses

Salt and drought stresses are being quite similar considered as two major constraints in maize production. To explore the anatomical bases of resistance to salt and drought stresses, 14 days old seedlings of three maize hybrid genotypes were subjected to salt (100 mM NaCl) and drought stress (equiosmotic PEG-6000) under hydroponic conditions. The experiment was laid out following a completely randomized design having four replicates. Root protoxylem and metaxylem thickness and root diameter were found to be unaffected in both of the drought resistant genotypes in response to salt and drought stresses whereas root protoxylem thickness increased (33.8 and 112.8% by salt and drought stress, respectively) in sensitive genotype (BARI hybrid maize-7). Bundle sheath thickness was found to increase in response to stresses (58.4 and 59.3% by salt and drought stress, respectively) in BARI hybrid maize-12. BARI hybrid maize-12 showed unaffected response in leaf epidermal thickness, phloem area, xylem area and total leaf thickness under both salt and drought stressesJ. Bangladesh Agril. Univ. 16(1): 47-55, April 2018

scholarly journals Production and quality of Anacardium othonianum Rizz. seedlings grown in different substrates

2014 ◽  
Vol 36 (2) ◽  
pp. 479-486
Author(s):  
Paulo Dornelles ◽  
Fabiano Guimarães Silva ◽  
Clenilso Sehnen Mota ◽  
João das Graças Santana
Keyword(s):  
Treatment Group ◽  
Plant Traits ◽  
Initial Period ◽  
Dry Weight ◽  
Stem Length ◽  
Nutrient Concentrations ◽  
Tree Seedlings ◽  
Fine Grained ◽  
Cashew Tree

This study aimed to evaluate the effect of substrate on growth, emergence, nutrition, and quality of Anacardium othonianum Rizz. (cerrado cashew tree) seedlings. The experiment was conducted in a greenhouse at the Plant Tissue Culture Laboratory on the Rio Verde campus. The following substrates were used: 1) Bioplant®, 2) Mecplant® (MP) + carbonized rice husk (CRH) (7:3), 3) fine-grained vermiculite (FGV), 4) FGV+CRH (3:1), 5) FGV+CRH (1:1), 6) FGV+CRH (1:3), and 7) sugarcane bagasse (SB) + sugarcane mill filter cake (FC) (3:2). Emerged seedlings were counted at 2-day intervals for 38 days following emergence of the first seedling. At 39, 64, and 89 days after seeding (DAS), the following variables were measured: stem length (SL), stem diameter (SD), and number of leaves (NL). Accumulated dry weight, quality indices, and leaf macro- and micronutrient levels were determined at 89 DAS. Plants grown in the FGV and FGV+CFH (1:3) substrates had shorter stem lengths than the plants grown in other substrates. Increases in seedling growth were smaller between 64 and 89 DAS compared to the initial period of the experiment. The highest leaf N concentrations were found in the SB+FC substrate treatment group; P and K concentrations were higher for the MP+CRH (7:3), SB+FC, and Bioplant® treatments; and Ca levels were higher for the SB+FC and MP+CRH (7:3) substrate treatments. The MP+CRH (7:3) substrate treatment group had the highest leaf B and Mn micronutrient concentrations, and plants from the Bioplant® substrate group had the highest leaf B micronutrient content. Mg, S, Cu, Zn, and Fe concentrations did not differ among the different substrates. The plant traits that differed most among the treatments included stem length for the FGV and FGV+CRH (1:3) substrate groups and leaf nutrient concentrations, which were higher for the SB+FC group followed by the MP+CRH and Bioplant® treatments.

scholarly journals FRUIT YIELD AND NUTRITIONAL CHARACTERISTICS OF SWEET PEPPER GROWN UNDER SALT STRESS IN HYDROPONIC SYSTEM

2018 ◽  
Vol 31 (2) ◽  
pp. 297-305 ◽  
Author(s):  
NADIELAN DA SILVA LIMA ◽  
ÊNIO FARIAS DE FRANÇA E SILVA ◽  
DIMAS MENEZES ◽  
TEREZINHA RANGEL CAMARA ◽  
LILIA GOMES WILLADINO
Keyword(s):  
Salt Stress ◽  
Nutrient Solution ◽  
Brackish Water ◽  
Sweet Pepper ◽  
Soil Salinization ◽  
Fruit Yield ◽  
Semiarid Region ◽  
Ionic Selectivity ◽  
Hydroponic System ◽  
Hydroponic Conditions

ABSTRACT Irrigation with brackish water is common in the semiarid region of the Brazilian Northeast, potentiating the process of salinization of the soil in these areas. The hydroponic system stands out as an important strategy for crop management in semiarid regions, since crops show greater tolerance to the salt stress under hydroponic conditions, which minimize the effects of soil salinization. Thus, the objective of this work was to evaluate the effects of salt stress on the growth, fruit yield and mineral nutrition of sweet pepper in hydroponic system, using brackish water and coconut fiber substrate. The experiment was conducted in Recife, State of Pernambuco, Brazil (8°3'15''S, 34°52'53''W). A randomized block experimental design in a 5x2 factorial arrangement with five replications was used, consisting of five water salinity levels of the nutrient solution (2.0; 3.5; 4.5; 5.5 and 6.5 dS m-1) and two sweet pepper cultivars (Bruno and Rubia). The increasing salinity level of the nutrient solution decreased the fruit yield of the cultivars evaluated, reduced the potassium, phosphorus and sulfur, and increased the sodium and chlorine contents in the leaf tissues. The Ca contents of the cultivar Bruno decreased with increasing salinity, and increased in the cultivar Rubia. The cultivar Rubia stood out with the highest fruit yield and ionic selectivity, accumulating high amounts of potassium and calcium and maintaining low Na and Cl contents. The fruit yield of the cultivar Rubia (39.9 t ha-1) grown under solution with electrical conductivity of up to 3.5 dS m-1, denotes the potential viability of growing this cultivar under hydroponic conditions.

scholarly journals Nutrient contents and production of rocket as affected by nitrogen concentrations in the nutritive solution

2008 ◽  
Vol 65 (6) ◽  
pp. 652-658 ◽  
Author(s):  
Rodrigo Luiz Cavarianni ◽  
Arthur Bernardes Cecílio Filho ◽  
Jairo Osvaldo Cazetta ◽  
André May ◽  
Mariana Marotti Corradi
Keyword(s):  
Nutrient Solution ◽  
Block Design ◽  
Nitrate Content ◽  
Nutrient Contents ◽  
Randomized Block Design ◽  
Nitrogen Concentrations ◽  
Number Of Leaves ◽  
Hydroponic Conditions ◽  
Nutrient Solutions

Empiricism in the use of nutrient solutions is frequent. Several times the same nutrient solution is used to grow different species based only on morphological similarities. This practice may lead to nutritional imbalances, affecting not only the production but also the quality of the product due to an accumulation of nitrate. An experiment under hydroponic conditions - the NFT system - was conducted with the aim of evaluating the effect of the concentration of nitrogen in the nutrient solution on the production and on the nutrient and nitrate contents of rocket (Eruca sativa) salad leaves. The experiment was carried out in spring 2003, in a randomized block design and in a 4 x 3 factorial design, with four replicates. Four nitrogen concentrations in the nutrient solution (60.8; 121.6; 182.5; 243.5 mg L-1) and three rocket salad cultivars (Cultivada, Folha Larga and Selvática) were evaluated. Cv. Cultivada produced the tallest plants and the highest leaf fresh fitomass, not differing from cv. 'Folha Larga' in the number of leaves, leaf nitrate content, root dry fitomass and root fresh fitomass. An increment in NO3, N, Ca and P and a reduction in Mg, K and S occurred when the concentration of N in the nutrient solution was increased. Cultivation of cv. Cultivada at the concentration of 93 mg L-1 is the most recommended as it provides the highest yield and low nitrate content.

scholarly journals The Addition of Selenium to the Nutrient Solution Decreases Cadmium Toxicity in Pepper Plants Grown under Hydroponic Conditions

Agronomy ◽  
2021 ◽  
Vol 11 (10) ◽  
pp. 1905
Author(s):  
Rafael Perez-Millan ◽  
Marina Alfosea-Simon ◽  
Ernesto Alejandro Zavala-Gonzalez ◽  
Jose Maria Camara-Zapata ◽  
Juan Jose Martinez-Nicolas ◽  
...  
Keyword(s):  
Nutrient Solution ◽  
Research Study ◽  
Foliar Application ◽  
Cadmium Toxicity ◽  
Toxic Effects ◽  
H2o2 Concentration ◽  
Essential Metals ◽  
Negative Effects ◽  
Hydroponic Conditions ◽  
Pepper Plants

Cadmium is absorbed by plants rapidly and without control through the same channels as other essential metals, interfering with their transport and utilization. Many studies have shown that selenium could be utilized as a way to avoid this unwanted transport and other negative effects of Cd. For this reason, the present research study was conducted with four treatments (−Cd/−Se, +Cd/−Se, +Cd/+SeF, and +Cd/+SeR) to determine the type of application of Se that is best (foliarly and/or via the root) as regards the reduction of the toxic effects of Cd on plants. Our results showed that the Cd excess in the nutrient solution resulted in a decrease in the total dry biomass of the plants grown under these conditions, and this decrease was due to the reduction of the growth of the shoot (48% +Cd/−Se, 45% +Cd/+SeF, and 38% +Cd/+SeR, relative to −Cd/−Se). This reduction in growth was due to: (i) the toxicity of Cd itself and (ii) the nutritional disequilibrium suffered by the plants. It seems that under hydroponic conditions, the addition of Se to the nutrient solution, and therefore its absorption through the roots (lower antioxidant activity, superoxide dismutase, H2O2 concentration and higher catalase activity), greatly delayed and reduced the toxic effects of Cd on the pepper plants, as opposed to the foliar application of this element.

scholarly journals Quality of dwarf cashew tree seedlings as a result of methods for breaking dormancy, container volume and application of bovine biofertilizer

2019 ◽  
Vol 13 (1) ◽  
Author(s):  
Toni Halan Da Silva Irineu ◽  
Mário Leno Martins Véras ◽  
Francisco Hélio Alves de Andrade ◽  
Josimar Nogueora da Silva ◽  
Raimundo Andrade
Keyword(s):  
Experiment Design ◽  
Experimental Unit ◽  
Tree Seedlings ◽  
Breaking Dormancy ◽  
Normal Water ◽  
Cashew Tree ◽  
Brazilian Northeast

The dwaf cashew tree presents enormous economic relevance for the Brazilian northeast. When establishing orchards of this species, the most important phase is the formation of the seedlings. Therefore, studies aiming to improve growth aspects and seedling qualities are extremely relevant. In this sense, the present study aimed to evaluate the growth and quality of dwarf cashew tree seedlings as a result of methods for breaking dormancy, container volume and application of bovine biofertilizer. The experiment design was completely randomized, with a 2×2×5 factorial scheme and six replicates; the experimental unit consisted of five seedlings. The treatments involved two methods of breaking dormancy (scarification with sandpaper and immersion in water), two container volumes (1 and 2 kg) and five doses of bovine biofertilizer (0, 2.5, 5.0, 7.5 and 10 mL). The method for breaking dormancy with normal water for 24 hours was the most adequate for the formation of dwarf cashew tree seedlings. The doses of 7.5 and 10 mL of bovine biofertilizer provided higher growth and quality in the dwarf cashew tree seedlings. The volume of 2 kg of substrate was the most suitable volume for growing dwarf cashew trees.

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