scholarly journals Dry Mass and Nitrogen Distribution in Papaya Seedlings in Response to Varied Fertilization of Divided Root Systems

HortScience ◽  
1997 ◽  
Vol 32 (3) ◽  
pp. 428D-428
Author(s):  
Thomas E. Marler ◽  
Haluk M. Discekici
Keyword(s):  
Nitrogen Content ◽  
Root System ◽  
Total Nitrogen ◽  
Root Systems ◽  
Dry Mass ◽  
Root Mass ◽  
Constant Mass ◽  
Nitrogen Distribution ◽  
Split Root ◽  
Total Plant

`Known You 1' papaya seedlings were grown in split-root containers and fertilizer was applied to one (1/2) or two (2/2) halves of the root system to determine the influence on transport of assimilates from canopy to roots and transport of nitrogen from fertilized roots to non-fertilized roots and canopy. Following 6 weeks of growth, the plants were bare-rooted and the root system halves and canopy were dried to constant mass at 70°C. Tissue was then analyzed for total nitrogen content. Fertilization increased root mass more than 250% and total plant mass 300% compared with control plants, which received no fertilization during the 6 weeks. Total root or plant mass did not differ between the 1/2 and 2/2 plants. Roots were evenly distributed between the two halves for 2/2 plants, but the fertilized half in the 1/2 plants accounted for 60% of the total root mass. Nitrogen content of roots and canopy were increased by fertilization. Nitrogen content of the non-fertilized roots of 1/2 plants was not different from that of the fertilized roots. These results indicate that fertilizing a portion of the papaya root system increased the sink activity of that portion and that the absorbed nitrogen from that portion is efficiently transported throughout the plant.

scholarly journals The root system of the husk tomato (Physalis ixocarpa Brot.)

2013 ◽  
Vol 39 (2) ◽  
pp. 367-383
Author(s):  
Juan Mulato Brito ◽  
Leszek S. Jankiewicz ◽  
Victor M. Fernández Orduňa ◽  
Francisco Cartujano Escobar
Keyword(s):  
Root System ◽  
Quantitative Estimation ◽  
Lateral Roots ◽  
Soil Layer ◽  
Root Systems ◽  
Dry Mass ◽  
Central Axis ◽  
Temperate Climate ◽  
Small Roots ◽  
Husk Tomato

The husk tomato (<i>Physalis ixocarpa</i> Brot.) is widely cultivated in central Mexico, and may be grown in countries with a temperate climate. The experiment was set up during the dry period of the year (average weekly temperature 17-22°C) in the State of Morelos, Mexico, using the cv. 'Rendidora' in loamy clay soil and furrow irrigation. The roots were investigated by the pinboard method modified by Garcia Blancas and Grajeda Gómez (in print), partly adapted by us for quantitative estimation of root systems. Two plants were investigated every second week. They had a well developed tap root. Most of their lateral roots were found in the superficial soil layer, 0-20 cm. The root dry mass was also concentrated near the central axis of the plant. The majority of root apices were, however, found in the soil cylinders 10-40 em from the central axis. During the senescence of the aerial part (14th week after emergence) the root system lost a large part of its small roots. The modification of the pinboard method, by Garcia Blancas and Grajeda Gómez (in print) permited us investigating the root systems with very simple tools, in situ.

scholarly journals Grazing Intensity Changed The Activities of Nitrogen Assimilation Related Enzymes In Desert Steppe Plants

2021 ◽  
Author(s):  
Aimin Zhu ◽  
Guodong Han ◽  
Haili Liu ◽  
Yuehua Wang
Keyword(s):  
Nitrogen Content ◽  
Root System ◽  
Total Nitrogen ◽  
Nitrogen Assimilation ◽  
Rhizosphere Soil ◽  
Total Nitrogen Content ◽  
Desert Steppe ◽  
Related Factors ◽  
Heavy Grazing ◽  
Grassland Plants

Abstract Background: The study on nitrogen assimilation mechanism of grazing grassland plants is of great significance to reveal the law of nutrient absorption and utilization of grassland vegetation. Methods: This study took Stipa breviflora desert steppe which was grazed for 17 years as the research object, and sampled the root system, leaf and rhizosphere soil of constructive species Stipa breviflora under the treatments of no grazing, light grazing, moderate grazing and heavy grazing during the peak growing season. The activities of enzymes related to nitrogen assimilation in roots and leaves were measured, and the related factors affecting nitrogen content were analyzed. Results: The results showed that heavy grazing significantly increased the total nitrogen content in the root system of Stipa breviflora, but decreased the total nitrogen content in the leaves, and the performance of grazing prohibition was consistent with that of heavy grazing; The activities of Nitrate reductase (NR), glutamine synthetase (GS), glutamic oxaloacetic transaminase (GOT) and glutamic pyruvate transaminase (GPT) were stronger under light or moderate grazing. Under grazing prohibition and heavy grazing, the content of proline in roots and leaves of Stipa breviflora increased significantly, especially in leaves; NR, GS, GOT and GPT were significantly correlated with total nitrogen content in roots and leaves of Stipa breviflora. Conclusions: Grazing prohibition and heavy grazing were not conducive to the nitrogen absorption and utilization of Stipa breviflora, which was closely related to the reduction of nitrate and ammonium nitrogen contents in the rhizosphere soil of Stipa breviflora by grazing. Grazing prohibition and heavy grazing affected the nitrogen content of Stipa breviflora by affecting the activities of related enzymes in the process of nitrogen assimilation of roots and leaves.

scholarly journals Straw Removal Effects on Sugarcane Root System and Stalk Yield

Agronomy ◽  
2020 ◽  
Vol 10 (7) ◽  
pp. 1048
Author(s):  
Paul L. A. Melo ◽  
Maurício R. Cherubin ◽  
Tamara C. A. Gomes ◽  
Izaias P. Lisboa ◽  
Lucas S. Satiro ◽  
...  
Keyword(s):  
Root System ◽  
Soil Surface ◽  
Dry Mass ◽  
Soil Conditions ◽  
Root Mass ◽  
Moderate Amount ◽  
Straw Mulch ◽  
Root Regrowth ◽  
Stalk Yield ◽  
The Impact

The sugarcane (Saccharum spp. L.) mechanical harvesting system leaves a large amount of straw mulch on the soil surface. The straw mulch may affect soil conditions, root regrowth, and sugarcane yield. Thus, this study assessed the response of sugarcane root system growth and stalk yield to different rates of straw removal. An experiment was conducted in a Rhodic Kandiudox with sand clay loam texture to test the impact of four rates of straw removal: no removal (18.9 Mg ha−1 of dry mass); moderate removal (8.7 Mg ha−1); high removal (4.2 Mg ha−1) and total removal on sugarcane root system and stalk yield. Higher concentrations of roots (60%) were found in the first 40 cm of soil. Moderate straw removal resulted in higher root mass (3.6 Mg ha−1) and stalk production (23 Mg ha−1 of dry mass). However, no straw removal reduced root mass by <40% (2099 kg ha−1) and reduced stalk yield by >20% (105 Mg ha−1). Through regression analysis, it was estimated that retaining between 8.5 and 13 Mg ha−1 of straw resulted in the highest root mass and stalk yield. Managing straw removal to retain a moderate amount enables producers to sustain suitable soil conditions for sugarcane root growth and stalk production while providing straw for industrial use.

scholarly journals Split-root systems: detailed methodology, alternative applications, and implications at leaf proteome level

Plant Methods ◽  
2021 ◽  
Vol 17 (1) ◽  
Author(s):  
Iñigo Saiz-Fernández ◽  
Martin Černý ◽  
Jan Skalák ◽  
Břetislav Brzobohatý
Keyword(s):  
Arabidopsis Thaliana ◽  
Root System ◽  
Growth Parameters ◽  
Healing Process ◽  
Root Systems ◽  
Water Soluble ◽  
Split Root ◽  
Split Root System ◽  
Leaf Proteome

Abstract Background Split-root systems (SRS) have many applications in plant sciences, but their implementation, depending on the experimental design, can be difficult and time-consuming. Additionally, the system is not exempt from limitations, since the time required for the establishment of the SRS imposes a limit to how early in plant development experiments can be performed. Here, we optimized and explained in detail a method for establishing a SRS in young Arabidopsis thaliana seedlings, both in vitro and in soil. Results We found that the partial de-rooting minimized the recovery time compared to total de-rooting, thus allowing the establishment of the split-root system in younger plants. Analysis of changes in the Arabidopsis leaf proteome following the de-rooting procedure highlighted the distinct metabolic alterations that totally and partially de-rooted plants undergo during the healing process. This system was also validated for its use in drought experiments, as it offers a way to apply water-soluble compounds to plants subjected to drought stress. By growing plants in a split-root system with both halves being water-deprived, it is possible to apply the required compound to one half of the root system, which can be cut from the main plant once the compound has been absorbed, thus minimizing rehydration and maintaining drought conditions. Conclusions Partial de-rooting is the suggested method for obtaining split-root systems in small plants like Arabidopsis thaliana, as growth parameters, survival rate, and proteomic analysis suggest that is a less stressful procedure than total de-rooting, leading to a final rosette area much closer to that of uncut plants. Additionally, we provide evidence that split root-systems can be used in drought experiments where water-soluble compounds are applied with minimal effects of rehydration.

scholarly journals Growth Promotion of Parsley (Petroselinum crispum L.) Using Commercial Strains of Trichoderma spp.

2019 ◽  
Vol 11 (4) ◽  
pp. 493
Author(s):  
Franciely Magalhães Barroso ◽  
Paulo Henrique Pereira Costa Muniz ◽  
Mariany Dalila Milan ◽  
Wanderson Silva dos Santos ◽  
Natália Cássia de Faria Ferreira ◽  
...  
Keyword(s):  
Root System ◽  
Growth Promotion ◽  
Dry Mass ◽  
Petroselinum Crispum ◽  
Initial Growth ◽  
Root Mass ◽  
Mass Ratio ◽  
Trichoderma Spp ◽  
Randomized Design ◽  
Shoot Mass

The growth of plants by the use of Trichoderma occurs through distinct mechanisms, among which it can highlight the synthesis of phytohormones and auxins analogues. The objective of this work was to evaluate Trichoderma spp. commercial strains in the promoting seedlings growth and in the productivity of parsley plants. In laboratory assay, seeds of parsley cv. &lsquo;Gra&uacute;da Portuguesa&rsquo; were treated with 2 mL of Trichoderma suspension (2.5 &times; 108 ml-1 conidia per 100 g of seeds) submitted to growth test until 28 days after sowing (DAS). For the greenhouse experiment, parsley seedlings were transplanted into 3.0 L pots containing soil, which was previously treated with 5 mL Trichoderma suspension, totaling 1.5 &times; 108 conidia per pot. In both, a control without Trichoderma application was included, being arranged in a completely randomized design (CRD). The evaluations were: percentage of germination (PG), root length (RL), shoot length (SL), total length (TL = RL + SL), fresh root mass (FRM), fresh shoot mass (FSM), total fresh mass (TFM = FRM + FSM), root dry mass (RDM), shoot dry mass (SDM), total dry mass (BIO = RDM + SDM), root mass ratio (RMR = RDM/BIO), shoot mass ratio (SMR = SDM/BIO), aerial part/root system retio (AP/RS = SDM/RDM) and productivity at 110 DAS. Althougth no diferences was observed among the Trichoderma treatments and the control about yield, Trichoderma spp. strains provided better TFM (18.98 to 22.92 mg), BIO (3.37 to 4.31 mg) and root system superior to the control (14.20 and 2.44 mg, respectively) under greenhouse conditions. T. harzianum ESALQ1306 was the better strain in laboratory assyas, suggsting this isolate for applied in the seeds when it aims the promotion of initial growth.

Hybrid variation for root system efficiency in maize: potential links to drought adaptation

2016 ◽  
Vol 43 (6) ◽  
pp. 502 ◽  
Author(s):  
Erik J. van Oosterom ◽  
Zongjian Yang ◽  
Fenglu Zhang ◽  
Kurt S. Deifel ◽  
Mark Cooper ◽  
...  
Keyword(s):  
Root System ◽  
Soil Water ◽  
Leaf Area ◽  
Grain Filling ◽  
Dry Mass ◽  
Water Extraction ◽  
Root Mass ◽  
System Efficiency ◽  
Drought Adaptation ◽  
Mass Allocation

Water availability can limit maize (Zea mays L.) yields, and root traits may enhance drought adaptation if they can moderate temporal patterns of soil water extraction to favour grain filling. Root system efficiency (RSE), defined as transpiration per unit leaf area per unit of root mass, represents the functional mass allocation to roots to support water capture relative to the allocation to aerial mass that determines water demand. The aims of this study were to identify the presence of hybrid variation for RSE in maize, determine plant attributes that drive these differences and illustrate possible links of RSE to drought adaptation via associations with water extraction patterns. Individual plants for a range of maize hybrids were grown in large containers in shadehouses in Queensland, Australia. Leaf area, shoot and root mass, transpiration, root distribution and soil water were measured in all or selected experiments. Significant hybrid differences in RSE existed. High RSE was associated with reduced dry mass allocation to roots and more efficient water capture per unit of root mass. It was also weakly negatively associated with total plant dry mass, reducing preanthesis water use. This could increase grain yield under drought. RSE provides a conceptual physiological framework to identify traits for high-throughput phenotyping in breeding programs.

CHEESE-RIPENING STUDIES: Nitrogen Requirements of Lactic Acid Bacteria: II. THE INFLUENCE OF DEFINED NITROGEN SOURCES ON THE SUGAR-FERMENTING ABILITIES OF LACTIC ACID BACTERIA

1932 ◽  
Vol 7 (4) ◽  
pp. 370-377 ◽  
Author(s):  
Wilfrid Sadler ◽  
Blythe Alfred Eagles ◽  
Gladys Pendray
Keyword(s):  
Lactic Acid ◽  
Lactic Acid Bacteria ◽  
Nitrogen Content ◽  
Nitrogen Source ◽  
Total Nitrogen ◽  
Nitrogen Sources ◽  
Titratable Acidity ◽  
Total Nitrogen Content ◽  
Nitrogen Distribution ◽  
Peptone Broth

The influence of 36 nitrogen sources on the sugar-fermenting abilities of five cultures isolated from cheese has been studied. The five cultures are Gram positive coccus forms that fail to liquefy gelatin: some appear as chains in young milk culture and some are seen as pairs. Three sugars, glucose, mannose and lactose have been used for the work. The fermentation studies have been done after the manner of Orla-Jensen: the suitability of a nitrogen source being interpreted in terms of the total titratable acidity produced by the organisms from defined sugars, after 14 days incubation at the appropriate temperature.For each organism, peptic casein digest broth is a very suitable source of nitrogen when the standard method of preparation is followed, and the total nitrogen content of the broth is approximately 1%. If the broth be diluted to contain 0.5% total nitrogen, the total titratable acidity obtainable is commonly less by one-third. Containing approximately 1% total nitrogen or 0.5% total nitrogen, tryptic casein digest broth is unsatisfactory as a nitrogen source for cultures EMB1 173 and 195; but is very suitable for cultures EMB2 166, 168 and 173,—providing the total nitrogen content of the broth is 0.5% rather than 1% total nitrogen..In the broth prepared from two commercial peptones, the nitrogen distribution is of the same order, but in each case dissimilar from the nitrogen distribution in peptic casein digest or in tryptic casein digest: one peptone broth—1% total nitrogen content—is a very suitable source of nitrogen for all the organisms; but, apart from the fermentation of mannose by two strains, the other peptone broth is no more satisfactory than is a peptic casein digest containing 0.5% nitrogen. In a commercial hydrolyzed casein broth, the nitrogen distribution is something of a composite picture of the distribution in peptic casein digest broth and tryptic casein digest broth. This source is less suitable for culture EMB1 173 than is peptic casein digest broth, equally suitable with peptic casein digest for culture EMB1 195 and, for cultures EMB2 166, 168 and 173, is the best nitrogen source investigated. The hydrolyzed casein broth containing 1% total nitrogen is much more suitable for each culture than is the same broth diluted to contain 0.5% total nitrogen.Differentiation as between cultures EMB1 173 and 195, on the one hand, and cultures EMB2 166, 168 and 173, on the other hand, may be obtained by employing certain of the nitrogen sources investigated.It has been shown that, when the nitrogen sources fractionated are employed as the substrate for fermentation studies, the suitability of a source is not necessarily indicated by the nitrogen distribution picture: even so, it is to be seen that, on the whole, the biological significance of the nitrogen distribution in a source is reflected in the influence on the sugar-fermenting abilities of the lactic acid bacteria reported upon..The results of the fermentation study show clearly that if the "kind" of nitrogen made available is suitable, the "amount" of nitrogen supplied is then equally important.

scholarly journals Root System Characteristics of Papaya Plants Grown on a Slope

HortScience ◽  
1996 ◽  
Vol 31 (4) ◽  
pp. 685b-685
Author(s):  
Thomas E. Marler ◽  
Haluk M. Discekici
Keyword(s):  
Root System ◽  
Root Length ◽  
Root Distribution ◽  
Lateral Root ◽  
Lateral Roots ◽  
Dry Mass ◽  
Root Mass ◽  
Total Root Length ◽  
Primary Lateral ◽  
System Characteristics

`Red Lady' papaya transplants were planted on a slope with a 30% to 35% grade and grown for 5 months. Excavation was used to determine root distribution on the uphill and downhill sides of the plants. Roots were separated into the taproot system and lateral roots on the uphill and downhill sides. The line intersect method was used to determine length of the lateral roots, and length of the taproot system was measured directly. All roots were dried at 70°C. The taproot system accounted for 2% of the total root length and 66% of the total root mass. Of the 130-m of lateral roots, 71% were located on the downhill side. Similarly, 69% of the dry mass of the lateral root system was located on the downhill side. Primary lateral roots on the uphill side of each plant developed horizontally, but some secondary lateral roots developed against gravity to maintain a portion of the root system close to the surface of the slope. Some of these lateral roots developed at angles of 55° to 60° above the horizontal.

VARIETAL DIFFERENCES IN BARLEYS AND MALTS: V. WORT NITROGEN AND MALT EXTRACT AND THEIR CORRELATIONS WITH BARLEY NITROGEN FRACTIONS

1939 ◽  
Vol 17c (1) ◽  
pp. 25-34 ◽  
Author(s):  
J. A. Anderson ◽  
C. A. Ayre ◽  
W. O. S. Meredith
Keyword(s):  
Nitrogen Content ◽  
Total Nitrogen ◽  
Correlation Coefficients ◽  
Total Nitrogen Content ◽  
Soluble Nitrogen ◽  
Malt Extract ◽  
Nitrogen Distribution ◽  
Nitrogen Fractions ◽  
Factors Associated ◽  
Partial Correlations

Data representing 12 barley varieties grown at 12 experimental stations in Canada were used to examine relations among wort nitrogen (w), malt extract (e), barley nitrogen fractions (x), and total barley nitrogen (n).Significant inter-varietal partial correlations, independent of total nitrogen, were found between wort nitrogen and salt-soluble nitrogen (rwx.n = 0.88), and between extract and salt-soluble and insoluble nitrogen fractions (rex.n = 0.60 and − 0.65). Partial correlations between wort nitrogen and alcohol-soluble and insoluble nitrogen were negative but insignificant (rwx.n = − 0.54 and − 0.32).Intra-varietal simple correlations between wort nitrogen and insoluble, alcohol-soluble, and salt-soluble nitrogen fractions were all positive and significant (rwx = 0.77, 0.74, and 0.61), and those between extract and each fraction were all negative and significant (rex = − 0.88, − 0.96 and − 0.77). All of the corresponding partial correlation coefficients were insignificant.The differences between the inter- and intra-varietal relations can be summed up as follows: between varieties, total nitrogen and factors associated with it have little influence on wort nitrogen or extract, whereas nitrogen distribution and factors associated with it have a measurable effect; within varieties, total nitrogen and factors associated with it are largely responsible for the control of wort nitrogen and extract, and one of these factors is nitrogen distribution. The differences result mainly from the fact that whereas within varieties nitrogen distribution is closely related to total nitrogen content, between varieties nitrogen distribution is independent of total nitrogen content.

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