Evaluation of Aluminum Sensitivity in Barrel Medic Germplasm

Aluminum (Al) toxicity in acid soils is a major constraint to global agricultural production, affecting ≈30% of the world’s arable land area. To study Al tolerance in barrel medic (Medicago truncatula), we assessed responses to excess Al in 91 accessions collected from different geographic regions. Root elongations were used to characterize the sensitivity of each accession. Seedlings were grown in an agarose medium that contained three levels of Al (50, 100, and 200 µm), and root elongation was measured at 72 hours after exposure to Al. The ratio of root elongation in the presence and absence of Al [relative root growth (RRG)] differed among accessions. At 50 µm Al, we observed the greatest range of intraspecific variation. Aluminum sensitivity of 30 accessions was tested further by hematoxylin staining. Relative root growth was regressed linearly against the visual staining score, and a significant, negative, linear relationship was found between RRG at 50 or 100 µm Al and the intensity of staining scores. Twelve selected accessions differing in their resistance were grown in Al-toxic soil to confirm their Al response. Such information could be useful in breeding or selecting for improved Al tolerance in barrel medic, as well as other crop species.

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The Response of Duckweed (Lemna minor L.) Roots to Cd and Its Chemical Forms

Journal of Chemistry ◽

10.1155/2018/7274020 ◽

2018 ◽

Vol 2018 ◽

pp. 1-9 ◽

Cited By ~ 5

Author(s):

Yan Xue ◽

Jin-qin Wang ◽

Jin Huang ◽

Feng-ying Li ◽

Ming Wang

Keyword(s):

Growth Rate ◽

Root Growth ◽

Root Elongation ◽

Lemna Minor ◽

Weibull Model ◽

Chemical Forms ◽

Total Antioxidant ◽

Relative Root Growth ◽

Relative Root ◽

Root Growth Rate

The response of duckweed (Lemna minor L.) roots to Cd and its chemical forms was investigated. The relative root growth rate and concentrations of Cd and its different chemical forms in the root, that is, ethanol-extractable (FE-Cd), HCl-extractable (FHCl-Cd), and residual fractions (Fr-Cd), were quantified. Weibull model was used to unravel the regression between the relative root elongation (RRL) with chemical forms of Cd. Parameters assessed catalase (CAT), peroxidases (POD), and superoxide dismutase (SOD), as well as malondialdehyde (MDA) and total antioxidant capacity (A-TOC). Our results show that both the relative root growth rate and relative frond number were affected by Cd concentrations. The chemical forms of Cd were influenced by Cd content in the medium. Relative root elongation (RRL) showed a significant correlation with chemical forms of Cd. Additionally, POD and SOD increased at lower Cd concentrations followed by a decrease at higher Cd concentrations (at more than 5 μM Cd). Moreover, MDA and A-TOC increased and CAT decreased with increasing Cd exposure. Furthermore, CAT showed a significant correlation with FHCl-Cd. Taken together, it can be concluded that the chemical forms of Cd are statistically significant predictors of Cd toxicity to duckweed and to the other similar aquatic plants.

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Malate Efflux From Root Apices and Tolerance to Aluminium Are Highly Correlated in Wheat

Functional Plant Biology ◽

10.1071/pp9950531 ◽

1995 ◽

Vol 22 (4) ◽

pp. 531 ◽

Cited By ~ 123

Author(s):

PR Ryan ◽

E Delhaize ◽

PJ Randall

Keyword(s):

Root Growth ◽

Triticum Aestivum L ◽

General Mechanism ◽

Al Tolerance ◽

Relative Tolerance ◽

Relative Root Growth ◽

Highly Correlated ◽

Root Apices ◽

Relative Root ◽

Sensitive Genotype

Aluminium (Al) can stimulate the efflux of malate and other organic acids from root apices of wheat (Triticum aestivum L.) seedlings. This response has been implicated in a mechanism of Al tolerance since the amount of malate released from an Al-tolerant genotype was 5-10-fold greater than the amount released from a near-isogenic, but Al sensitive, genotype. In the present study, 36 wheat cultivars were screened for Al tolerance and for the amount of malate released from their root apices with a standard A1 treatment. Excised root apices (3.0 mm) were used to measure malate efflux, and the relative tolerance to Al was determined from root growth measurements in 3 and 10μM AlCl3 with 200 μM CaCl2, pH 4.3. There was a significant correlation between relative tolerance of the genotypes to Al and the amount of malate released from their root apices. Growth measurements were also used to investigate the amelioration of Al toxicity by exogenous malate. In the presence of 3 μM Al alone, relative root growth of an Al-sensitive genotype was reduced to 13% of the control. Addition of 10 μM malate to the solution increased relative root growth to 50%, and 20 �M malate completely alleviated the Al-induced inhibition of root growth. The results support the hypothesis that the Al-stimulated efflux of malate from root apices is involved in a general mechanism for Al tolerance in wheat.

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Differential tolerance of manganese among cultivars of Triticum aestivum

Canadian Journal of Botany ◽

10.1139/b89-173 ◽

1989 ◽

Vol 67 (5) ◽

pp. 1305-1308 ◽

Cited By ~ 20

Author(s):

Sheila M. Macfie ◽

Gregory J. Taylor ◽

Keith G. Briggs ◽

John Hoddinott

Keyword(s):

Triticum Aestivum ◽

Root Growth ◽

Solution Culture ◽

High Yield ◽

Root Weight ◽

Al Tolerance ◽

Control Root ◽

Relative Root Growth ◽

Maximum Root ◽

Relative Root

Thirty cultivars of Triticum aestivum differed in tolerance of manganese (Mn) as determined by relative root growth in solution culture. Based upon a root weight index (RWI = root weight in the presence of 500 μM Mn divided by control root weight), Mn tolerance ranged from 0.08 to 0.88. All Canadian Western Red Spring (CWRS) cultivars tested were Mn sensitive. Cultivars bred for high yield were more Mn tolerant, especially 'Norquay' (RWI = 0.88) which was the only cultivar with a RWI > 0.70. The cultivars 'Norquay' and 'Columbus' were selected as standards for Mn tolerance and Mn sensitivity, respectively. 'Norquay' showed maximum root growth at 100 μM Mn, a concentration which was toxic to 'Columbus', and differential tolerance was maintained up to 1000 μM Mn in solution. Differences between 'Norquay' and 'Columbus', grown in excess Mn, were also observed in the accumulation of biomass with time. In contrast with previous studies, Mn tolerance was positively correlated with Al tolerance (R2 = 32.7, p = 0.001) in the cultivars tested.

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Genome-wide identification and transcriptional analyses of MATE transporter genes in root tips of wild Cicer spp. under aluminium stress

10.1101/2020.04.27.063065 ◽

2020 ◽

Cited By ~ 1

Author(s):

Xia Zhang ◽

Brayden Weir ◽

Hongru Wei ◽

Zhiwei Deng ◽

Xiaoqi Zhang ◽

...

Keyword(s):

Root Growth ◽

Root Elongation ◽

Transcriptional Profiling ◽

Functional Characterization ◽

Relative Reduction ◽

Root Tips ◽

Al Tolerance ◽

Genome Wide ◽

Encoding Genes ◽

Al Treatment

AbstractChickpea is an economically important legume crop with high nutritional value in human diets. Aluminium-toxicity poses a significant challenge for the yield improvement of this increasingly popular crop in acidic soils. The wild progenitors of chickpea may provide a more diverse gene pool for Al-tolerance in chickpea breeding. However, the genetic basis of Al-tolerance in chickpea and its wild relatives remains largely unknown. Here, we assessed the Al-tolerance of six selected wild Cicer accessions by measuring the root elongation in solution culture under control (0 µM Al3+) and Al-treatment (30 µM Al3+) conditions. Al-treatment significantly reduced the root elongation in all target lines compared to the control condition after 2-day’s growth. However, the relative reduction of root elongation in different lines varied greatly: 3 lines still retained significant root growth under Al-treatment, whilst another 2 lines displayed no root growth at all. We performed genome-wide identification of multidrug and toxic compound extrusion (MATE) encoding genes in the Cicer genome. A total of 56 annotated MATE genes were identified, which divided into 4 major phylogeny groups (G1-4). Four homologues to lupin LaMATE (> 50% aa identity; named CaMATE1-4) were clustered with previously characterised MATEs related to Al-tolerance in various other plants. qRT-PCR showed that CaMATE2 transcription in root tips was significantly up-regulated upon Al-treatment in all target lines, whilst CaMATE1 was up-regulated in all lines except Bari2_074 and Deste_064, which coincided with the lines displaying no root growth under Al-treatment. Transcriptional profiling in five Cicer tissues revealed that CaMATE1 is specifically transcribed in the root tissue, further supporting its role in Al-detoxification in roots. This first identification of MATE-encoding genes associated with Al-tolerance in Cicer paves the ways for future functional characterization of MATE genes in Cicer spp., and to facilitate future design of gene-specific markers for Al-tolerant line selection in chickpea breeding programs.

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SELEKSI KETAHANAN BEBERAPA KULTIVAR PADI (Oryza sativa L.) LOKAL ASAL KALIMANTAN TIMUR TERHADAP CEKAMAN ALUMINIUM PADA FASE PERKECAMBAHAN

ZIRAA'AH MAJALAH ILMIAH PERTANIAN ◽

10.31602/zmip.v44i2.1894 ◽

2019 ◽

Vol 44 (2) ◽

pp. 178

Author(s):

Nurul Aini ◽

Susylowati Susylowati ◽

Nurhasanah Nurhasanah

Keyword(s):

Root Growth ◽

Shoot Growth ◽

Agricultural Land ◽

Growth Parameter ◽

Aluminum Concentration ◽

Rice Cultivars ◽

Aluminum Stress ◽

East Kalimantan ◽

Relative Root Growth ◽

Relative Root

Food security and sovereignty can be realized through the expansion of agricultural land to the marginal lands. One type of marginal land is acidie soils with high levels of aluminum (Al) toxicity. An efficient and environmentally friendly approach to utilizeng acidie soils as agricultural land is by using rice varieties which have a high tolerance to aluminum stress on acidie soils. The purpose of this study was to determine the effect of aluminum stress on the growth of the local rice from East Kalimantan and to select the tolerant cultivars against aluminum stress at the germination stage. The study was conducted for three months (May-July 2018), at Laboratory of Biotechnology, Faculty of Agriculture, University of Mulawarman, Samarinda. This study used a Split Plot Design with three replications. As the main plot was Aluminum stress concentration (A) consisting of 3 levels, namely 0, 250 and 500 ppm of AlCl3 and as subplots were 25 rice genotypes, consisting of 23 local rice cultivars from East Kalimantan (V) and two genotypes as tolerant (Mekongga) and sensitive (IR64) controls. Assessment of aluminum tolerance level was carried out by calculating plant sensitivity index values against aluminum stress based on the Relative Root Growth (RRG) and Relative Shoot Growth (SRG) parameters. Other plant growth parameter data, root and shoot fresh and dry weight, were analyzed using analysis of variance at the test level α = 0.05, and the post-hoch test using Honestly Significant Difference test (HSD). Aluminum stress caused disruption of the East Kalimantan local rice cultivars growth, especially root growth. Aluminum concentration at either 250 ppm or 500 ppm reduced relative root growth and further damage the root system of the rice plants causing roots stunted and thickened. Likewise with shoot growth parameter, there was a relative shoot growth decline due to the aluminum stress on the plants. Two local rice cultivars of East Kalimantan, Pulut Mayang and Pulut Linjuang, were consistently tolerant to aluminum stress either in 250 ppm or 500 ppm of AlCl3; while Kawit, Bentian, Mayas Putih and Ketan putih cultivars were only classified as tolerant at a concentration of 250 ppm aluminum. On the other hand, a control sensitive variety IR64 showed the susceptibility to 250 and 500 ppm aluminum stress.

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A COMPARISON OF METHODS OF EVALUATING RUSSIAN WILD RYEGRASS FOR SEEDLING VIGOR

Canadian Journal of Plant Science ◽

10.4141/cjps63-059 ◽

1963 ◽

Vol 43 (3) ◽

pp. 307-312 ◽

Cited By ~ 17

Author(s):

T. Lawrence

Keyword(s):

Root Growth ◽

Breeding Program ◽

Suitable Method ◽

Seedling Vigor ◽

Comparison Of Methods ◽

Glass Tubes ◽

Relative Root Growth ◽

Clonal Lines ◽

Positive Correlations ◽

Relative Root

Twelve clonal lines of Russian wild ryegrass and the polycross seed from them were used for this study. The lines were evaluated for seedling vigor in the greenhouse, field, and laboratory. Seedling vigor was assessed on the basis of emergence from three depths of seeding, speed of germination, and relative root growth in glass tubes.Seed size of the parental clones and emergence of their progenies from a [Formula: see text]-inch seeding depth showed positive correlations of +0.76 and +0.83 in the greenhouse and field, respectively. Emergence from shallow seedings and relative root growth in glass tubes did not vary sufficiently to provide measured differentiation in seedling vigor. Speed of germination showed some indication that it might be used to determine seedling vigor.Selecting large-seeded lines and subjecting them to deep seeding in either the greenhouse or field is suggested as a suitable method of incorporating seedling vigor into a breeding program.

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Timing, location and crop species influence the magnitude of amelioration of aluminum toxicity by magnesium

Revista Brasileira de Ciência do Solo ◽

10.1590/s0100-06832009000100007 ◽

2009 ◽

Vol 33 (1) ◽

pp. 65-76 ◽

Cited By ~ 2

Author(s):

Ivo Ribeiro Silva ◽

Tarcísio Fernando Cortes Corrêa ◽

Roberto Ferreira Novais ◽

T. Jot Smyth ◽

Thomas Rufty ◽

...

Keyword(s):

Root Growth ◽

Protective Effect ◽

Root System ◽

Aluminum Toxicity ◽

Protective Action ◽

Al Toxicity ◽

Al Tolerance ◽

Crop Species ◽

Soybean Cultivars ◽

Split Root System

The protective effect of cations, especially Ca and Mg, against aluminum (Al) rhizotoxicity has been extensively investigated in the last decades. The mechanisms by which the process occurs are however only beginning to be elucidated. Six experiments were carried out here to characterize the protective effect of Mg application in relation to timing, location and crop specificity: Experiment 1 - Protective effect of Mg compared to Ca; Experiment 2 - Protective effect of Mg on distinct root classes of 15 soybean genotypes; Experiment 3 - Effect of timing of Mg supply on the response of soybean cvs. to Al; Experiment 4 - Investigating whether the Mg protective effect is apoplastic or simplastic using a split-root system; Experiment 5 - Protective effect of Mg supplied in solution or foliar spraying, and Experiment 6 - Protective effect of Mg on Al rhizotoxicity in other crops. It was found that the addition of 50 mmol L-1 Mg to solutions containing toxic Al increased Al tolerance in 15 soybean cultivars. This caused soybean cultivars known as Al-sensitive to behave as if they were tolerant. The protective action of Mg seems to require constant Mg supply in the external medium. Supplying Mg up to 6 h after root exposition to Al was sufficient to maintain normal soybean root growth, but root growth was not recovered by Mg addition 12 h after Al treatments. Mg application to half of the root system not exposed to Al was not sufficient to prevent Al toxicity on the other half exposed to Al without Mg in rooting medium, indicating the existence of an external protection mechanism of Mg. Foliar spraying with Mg also failed to decrease Al toxicity, indicating a possible apoplastic role of Mg. The protective effect of Mg appeared to be soybean-specific since Mg supply did not substantially improve root elongation in sorghum, wheat, corn, cotton, rice, or snap bean when grown in the presence of toxic Al concentrations.

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Temporal dynamics of the response to Al stress in Eucalyptus grandis × Eucalyptus camaldulensis

Anais da Academia Brasileira de Ciências ◽

10.1590/0001-3765201520140322 ◽

2015 ◽

Vol 87 (2) ◽

pp. 1063-1070 ◽

Cited By ~ 6

Author(s):

Berenice K. de Alcântara ◽

Daniel Pizzaia ◽

Fernando A. Piotto ◽

Lucélia Borgo ◽

Gilvano E. Brondani ◽

...

Keyword(s):

Lipid Peroxidation ◽

Root Growth ◽

Root Elongation ◽

Temporal Dynamics ◽

Eucalyptus Grandis ◽

Eucalyptus Camaldulensis ◽

Growth Reduction ◽

Al Tolerance ◽

Acidic Soils ◽

Root Growth Reduction

Lipid peroxidation and root elongation of Eucalyptus grandis × Eucalyptus camaldulensis were studied under stress conditions in response to aluminum (Al), a metal known to limit agricultural productivity in acidic soils primarily due to reduced root elongation. In Brazil, the Grancam 1277 hybrid (E. grandis × E. camaldulensis) has been planted in the "Cerrado", a region of the country with a wide occurrence of acidic soils. The present study demonstrated that the hybrid exhibited root growth reduction and increased levels of lipid peroxidation after 24h of treatment with 100 µM of Al, which was followed by a reduction in lipid peroxidation levels and the recovery of root elongation after 48h of Al exposure, suggesting a rapid response to the early stressful conditions induced by Al. The understanding of the temporal dynamics of Al tolerance may be useful for selecting more tolerant genotypes and for identifying genes of interest for applications in bioengineering.

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Effect of banded fertilizers on soil solution composition and short-term root-growth .2. Mono-ammonium and di-ammonium phosphates

Soil Research ◽

10.1071/sr9950689 ◽

1995 ◽

Vol 33 (4) ◽

pp. 689 ◽

Cited By ~ 18

Author(s):

PW Moody ◽

DG Edwards ◽

LC Bell

Keyword(s):

Root Growth ◽

Soil Solution ◽

Root Elongation ◽

Ammonium Phosphate ◽

Contact Period ◽

Solution Composition ◽

Solution Ph ◽

Organic C ◽

Precipitation Reactions ◽

Relative Root

A layer of mono- or di-ammonium phosphate (MAP and DAP, respectively) was placed in contact for 5 days with duplicate columns of soil at a water content equivalent to 10 kPa matric suction. This was designed to simulate the effects of banded fertilizer on soil solution composition. Five soils were used: 0-10 cm samples from a Kurosol, a Ferrosol, a Vertosol and a Kandosol, and a 50-60 cm sample from the Kandosol. After the contact period, soil sections were recovered at successive 5 mm intervals from the fertilizer layer, the last section being 45-60 mm from the layer. Soybean (Glycine max (L.) Merr.) seedlings were grown for 48 h in each section and relative root elongation was determined. Soil solution was then extracted from each section and analysed. The amount of inorganic P in the soil solution (P-i) was summed over all soil sections for each soil and each P source and was found to be correlated with distance of P movement from the simulated band (r = 0 . 792, P < 0.01). Of several soil chemical parameters of the control (unfertilized) soils regressed against Pi, the following showed significant (P = 0.05) negative correlations: Ca and Mg concentrations in the soil solution for Pi from both MAP and DAP, exchangeable Ca and Mg for DAP, and citrate-dithionite extractable Fe and Al for MAP. These results suggest that adsorption (and possibly precipitation) reactions with Fe and Al hydrous oxides contributed to the removal of P-i from solution in the presence of MAP. However, with DAP as the fertilizer source, precipitation reactions involving Ca and Mg were the predominant factors. Dissolved organic C in the soil solution increased adjacent to both DAP and MAP, with larger amounts in proximity to DAP being a consequence of the higher soil solution pH (~ 7). Soil solution Si increased in all soils adjacent to both DAP and MAP, with concentrations being higher in the MAP treatments. Dissolution of aluminosilicates in the acidic conditions near MAP (pH ~5) was the probable cause. Relative root elongation (RRE) of soybean was restricted in soil sections close to the fertilizer. When RRE was plotted against each of soil solution EC, NH3 activity, and calcium activity ratio (CAR), a single curvilinear function described the relationship between RRE and CAR for all soils and both P sources. It is concluded that a salt-induced Ca deficiency was the cause of restricted root growth in proximity to DAP and MAP, rather than an osmotic effect or NH3 toxicity.

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Talking with Strangers: Improving Serianthes Transplant Quality with Interspecific Companions

Forests ◽

10.3390/f12091192 ◽

2021 ◽

Vol 12 (9) ◽

pp. 1192

Author(s):

Thomas E. Marler ◽

Ragan M. Callaway

Keyword(s):

Root Growth ◽

Agricultural Systems ◽

Growth Responses ◽

Growth And Survival ◽

Post Transplant ◽

Or Groups ◽

Relative Root Growth ◽

Companion Plants ◽

Harmful Effects ◽

Relative Root

Mixtures of species in natural or agricultural systems can increase the performance of individuals or groups relative to monocultures, often through facilitative mechanisms. Mechanisms include root communication by which plants can interrogate the identity of adjacent plants and respond negatively or positively. Alternatively, mixtures of species can ameliorate the harmful effects of soil biota that are pronounced in monocultures, thereby improving plant productivity. Limited investments into roots by shade-grown Serianthes plants in nurseries have been correlated with reduced survival after transplantation to forested habitats. We used companion container cultures in two studies to determine if heterospecific neighbor, or “stranger” roots could experimentally increase the root growth of Serianthes grandiflora plants used as surrogates for the critically endangered Serianthes nelsonii. In one study, native sympatric eudicot and pteridophyte companions increased relative root growth and conspecific companions decreased root growth in comparison to control plants that were grown with no companions. In a second study, the phylogeny of companion plants elicited different root growth responses following the order of congeneric < eudicot = monocot < gymnosperm < pteridophyte. We propose the use of stranger roots that are experimentally maintained in production containers as a passive protocol to improve relative and absolute root growth, leading to improved post-transplant growth and survival of container-grown Serianthes plants.

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