Increase in ploidy level caused an effect on stomatal characteristics

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Citrus clementina

 

 

Ploidy levels in Citrus clementina affects leaf morphology, stomatal density and water content

by Padoan D., Mossad A., Chiancone B., Germana M. A., Khan P. S. S. V. (2013) –  –

Diego Padoan1*, Amr Mossad1,2, Benedetta Chiancone1 , Maria Antonietta Germana1 , Patan Shaik Sha Valli Khan1,3

1 Departemento DEMETRA, Facolta di Agararia, Unieversita degli Studi di Palermo, Palermo, Italy.

2 Agricultural Engineering Department, Faculty of Agriculture, Ain Shams University, Cairo, Egypt.

3 Department of Botany, Yogi Vemana University, Vemanapuram, Andhra Pradesh, India.

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Theoretical and Experimental Plant Physiology, 25(4): 283-290 – http://dx.doi.org/10.1590/S2197-00252013000400006.

http://www.scielo.br/pdf/txpp/v25n4/06.pdf

Abstract

The objective of the present study was to understand the relationship among leaf morphology, stomatal characteristics and water relations in triploids generated through anther culture and their counterpart diploid plant of C. clementina.

Triploid plants possessed small and narrow leaves as compared to diploid plant as evident by less leaf length, leaf width and leaf area. By contrast, the leaf index was observed to be more in triploids than haploid ones. Flow cytometric analysis re-confirmed the ploidy levels of heterozygous plant Hd as diploid and the ploidy of Th1, Th2, Th3 and Th4 plants as triploids.

A positive relation was found between ploidy level and stomatal guard cell length and width, whereas a negative relation was observed between the stomata density and ploidy level.

The stomatal density was reported to be 6.2±0.2 stomata per µm2 in diploid plant, while stomatal density varied between 3.0 and 3.6 stomata per µm2 in triploids.

Leaf relative water content (RWC) was slightly higher in triploids (90.8 to 93.1%) than diploid (89.5%). The leaf water loss was found to be marginally higher in diploid than in triploid plants.

Our results show that increase in ploidy level from diploids to triploids caused an effect on leaf morphology and stomatal characteristics with probable consequences to water relations of leaves.

This research will serve as an important basis for future work on complete analysis of both morphological and behavioural traits of the leaf stomata and transpiration rates in relation to diploid versus triploid plants

Stomata and ploidy levels

 

Ploidy levels in Citrus clementina affects leaf morphology, stomatal density and water content

by Padoan D., Mossad A., Chiancone B., Germana M. A., Valli Khan P. S. S. (2013)

Diego Padoan;

Amr Mossad;

Benedetta Chiancone;

Maria Antonietta Germana;

Patan Shaik Sha Valli Khan^I

in Theor. Exp. Plant Physiol. vol.25 no.4,283-290. – http://dx.doi.org/10.1590/S2197-00252013000400006 –  Campo dos Goytacazes Oct./Dec. 2013.

http://www.scielo.br/scielo.php?script=sci_arttext&pid=S2197-00252013000400006

ABSTRACT

The objective of the present study was to understand the relationship among leaf morphology, stomatal characteristics and water relations in triploids generated through anther culture and their counterpart diploid plant of C. clementina. Triploid plants possessed small and narrow leaves as compared to diploid plant as evident by less leaf length, leaf width and leaf area. By contrast, the leaf index was observed to be more in triploids than haploid ones.

Flow cytometric analysis re-confirmed the ploidy levels of heterozygous plant Hd as diploid and the ploidy of Th1, Th2, Th3 and Th4 plants as triploids. A positive relation was found between ploidy level and stomatal guard cell length and width, whereas a negative relation was observed between the stomata density and ploidy level.

The stomatal density was reported to be 6.2±0.2 stomata per µm² in diploid plant, while stomatal density varied between 3.0 and 3.6 stomata per µm² in triploids.

Leaf relative water content (RWC) was slightly higher in triploids (90.8 to 93.1%) than diploid (89.5%). The leaf water loss was found to be marginally higher in diploid than in triploid plants.

Our results show that increase in ploidy level from diploids to triploids caused an effect on leaf morphology and stomatal characteristics with probable consequences to water relations of leaves. This research will serve as an important basis for future work on complete analysis of both morphological and behavioural traits of the leaf stomata and transpiration rates in relation to diploid versus triploid plants.

Ploidy levels and stomatal density

 Photo credit: Scielo

Ploidy levels in Citrus clementine affects leaf morphology, stomatal density and water content

by Padoan D., Mossad A., Chiancone B., Germana M. A., Valli Khan P. S. S. (2013)

Diego Padoan, Amr Mossad, Benedetta Chiancone, Maria Antonietta Germana,Patan Shaik Sha Valli Khan

===

in Theor. Exp. Plant Physiol. 25(4)

Campo dos Goytacazes Oct./Dec. 2013

ABSTRACT

The objective of the present study was to understand the relationship among leaf morphology, stomatal characteristics and water relations in triploids generated through anther culture and their counterpart diploid plant of C. clementina.

Triploid plants possessed small and narrow leaves as compared to diploid plant as evident by less leaf length, leaf width and leaf area. By contrast, the leaf index was observed to be more in triploids than haploid ones. Flow cytometric analysis re-confirmed the ploidy levels of heterozygous plant Hd as diploid and the ploidy of Th1, Th2, Th3 and Th4 plants as triploids. A positive relation was found between ploidy level and stomatal guard cell length and width, whereas a negative relation was observed between the stomata density and ploidy level.

The stomatal density was reported to be 6.2±0.2 stomata per µm² in diploid plant, while stomatal density varied between 3.0 and 3.6 stomata per µm² in triploids. Leaf relative water content (RWC) was slightly higher in triploids (90.8 to 93.1%) than diploid (89.5%). The leaf water loss was found to be marginally higher in diploid than in triploid plants.

Our results show that increase in ploidy level from diploids to triploids caused an effect on leaf morphology and stomatal characteristics with probable consequences to water relations of leaves. This research will serve as an important basis for future work on complete analysis of both morphological and behavioural traits of the leaf stomata and transpiration rates in relation to diploid versus triploid plants.

Read the full article: Scielo