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1. Yambean mosaic virus and lettuce chlorosis virus in Australia

   This is the first report of yambean mosaic virus and lettuce chlorosis virus in Australia. Both viruses were initially identified co-infecting the...

   Fiona Filardo, Barbara Waterhouse, ... Paul Campbell in Australasian Plant Disease Notes

   Article Open access 16 March 2023
   

2. Bicarbonate affects the expression of iron acquisition and translocation genes involved in chlorosis in Medicago lupulina

   Iron (Fe) deficiency chlorosis (FDC) in plant is associated with high bicarbonate concentration in calcareous soil and irrigation water, which leads...

   Lunxian Liu, Meifeng Chen, ... Yin Yi in Acta Physiologiae Plantarum

   Article 11 May 2024
   

3. Is magnesium deficiency the major cause of needle chlorosis of Pinus taeda in Brazil?

   Needle chlorosis (NC) in Pinus taeda L. systems in Brazil becomes more frequent after second and third harvest rotation cycles. In a study to...

   Antônio Carlos Vargas Motta, Shizuo Maeda, ... João Bosco Vasconcellos Gomes in Journal of Forestry Research

   Article Open access 20 December 2023
   

4. Transcriptome and metabolome analyses reveal new insights into chlorophyll, photosynthesis, metal ion and phenylpropanoids related pathways during sugarcane ratoon chlorosis

   Background

   Ratoon sugarcane is susceptible to chlorosis, characterized by chlorophyll loss, poor growth, and a multitude of nutritional deficiency...

   Ting Luo, Zhongfeng Zhou, ... Qi Chen in BMC Plant Biology

   Article Open access 29 April 2022
   

5. Genetic dissection of iron deficiency chlorosis by QTL analysis in cowpea

   Cowpea is an important pulse crop in the world. As with other leguminous crops, cowpea shows severe leaf chlorosis, when grown in calcareous soil....

   Brijesh Angira, Yang Zhang, ... Subas Malla in Euphytica

   Article 05 March 2022
   

6. First report of tomato chlorosis virus (ToCV) and detection of other viruses in field-grown tomatoes in North-Western region of India

   Tomato crop is known to be infected by large number of viruses across the globe causing severe losses in its yield. Accurate information on the...

   Poonam Chaudhary, Amritpreet Kaur, ... Avinash Kaur Nagpal in VirusDisease

   Article 17 December 2022
   

7. Metagenomic analysis of rhizosphere microbiome provides insights into occurrence of iron deficiency chlorosis in field of Asian pears

   Background

   Fe-deficiency chlorosis (FDC) of Asian pear plants is widespread, but little is known about the association between the microbial...

   Bing Jia, **ao Chang, ... Liwu Zhu in BMC Microbiology

   Article Open access 08 January 2022
   

8. Accumulation of resveratrol, ferulic acid and iron in seeds confer iron deficiency chlorosis tolerance to a novel genetic stock of peanut (Arachis hypogaea L.) grown in calcareous soils

   Peanut is mostly grown in calcareous soils with high pH which are deficient in available iron (Fe ²⁺ ) for plant uptake causing iron deficiency...

   Sushmita Singh, Amrit Lal Singh, ... Praveen Kona in Physiology and Molecular Biology of Plants

   Article 01 May 2023
   

9. Genetic map** of tolerance to iron deficiency chlorosis in peanut (Arachis hypogaea L.)

   Iron deficiency chlorosis (IDC) under calcareous and alkaline soils is a significant abiotic stress affecting the growth and yield of peanut. In this...

   Ankur D. Tayade, Babu N. Motagi, ... Ramesh S. Bhat in Euphytica

   Article 17 March 2022
   

10. Quantitative Proteomics Analysis of Sugarcane Ratoon Crop Chlorosis

    Sugarcane is the most important sugar and bioenergy crop. Sugarcane ratoon crop chlorosis, caused by deficiencies of Fe, Ca and Mg because of low...

    Ye-Geng Fan, Rong-Fa Chen, ... Yang-Rui Li in Sugar Tech

    Article 11 February 2021
    

11. Influence of Soil Conditions on the Manifestation of Chlorosis and Parthenocarpy in Lonicera caerulea L.

    Abstract

    The compositions of macro- and microelements in two counties in China and two districts in the south of the West Siberian Plain have been...

    A. I. Syso, I. G. Boyarskikh, ... T. I. Syromlya in Contemporary Problems of Ecology

    Article 01 September 2021
    

12. First report of tomato chlorosis virus in tomato in Albania

    Chrysoula G. Orfanidou, Magdalena Cara, ... Varvara I. Maliogka in Journal of Plant Pathology

    Article 16 May 2022

13. Iron Chlorosis in Peach and Its Eco-Friendly Management: An Outlook

    Peach [Prunus persica (L.) Batsch] suffers from iron chlorosis when grown in calcareous soils due to low iron availability. Traditionally, foliar and...

    Saurabh Kumar Singh, Ramji Singh, Ajay Tomer in Recent Developments in Microbial Technologies

    Chapter 2021
    

14. Chlorosis seedling lethality 1 encoding a MAP3K protein is essential for chloroplast development in rice

    Background

    Mitogen-activated protein kinase (MAPK) cascades are conserved signaling modules in eukaryotic organisms and play essential roles in...

    Jiayan Liang, Qiuxin Zhang, ... Zemin Zhang in BMC Plant Biology

    Article Open access 06 January 2022
    

15. Development of a controlled-environment assay to induce iron deficiency chlorosis in soybean by adjusting calcium carbonates, pH, and nodulation

    Background

    Soybean iron deficiency chlorosis (IDC) is an important nutrient stress frequently found in high pH and/or soils high in calcium...

    R. Merry, M. J. Espina, ... R. M. Stupar in Plant Methods

    Article Open access 21 March 2022
    

16. First report of tomato chlorosis virus in pepper in Greece

    Vasileia Gavrili, Leonidas Lotos, ... Varvara Maliogka in Journal of Plant Pathology

    Article 29 November 2021

17. Tomato chlorosis virus found to infect Cestrum elegans and C. nocturnum in Turkey

    Cestrum species are being used as hedge and ornamental plants in Turkey. In this study, a Cestrum elegans plant showing chlorotic spots, rings and...

    Vahid Roumi, Kadriye Caglayan, ... Shifang Li in European Journal of Plant Pathology

    Article 08 June 2021
    

18. Dot-blot immunoassay for detection of tomato chlorosis virus and reaction of potato genotypes to virus infection

    Tomato chlorosis virus (ToCV) is a whitefly-transmitted crinivirus that causes yield losses, mainly in tomato ( Solanum lycopersicum ) and potato ( S....

    Luiz R. Pinto, Daiana Bampi, ... Armando Bergamin Filho in Tropical Plant Pathology

    Article 10 March 2021
    

19. First report of natural infection of Capsicum chlorosis virus (Orthotospovirus capsiciflavi) in Capsicum chinense and Capsicum frutescens from jhum groves of North East India

    Oinam Priyoda Devi, Susheel Kumar Sharma, ... Virendra Kumar Baranwal in Journal of Plant Pathology

    Article 05 October 2023

20. Characterization of Capsicum chlorosis virus infecting chilli (Capsicum annuum. L) in southern India

    During a field survey in Tamil Nadu (2014–16), chilli plants showing chlorotic and necrotic ring spots and necrotic streaks on leaves and stems were...

    B. D. Haokip, K. Nagendran, ... G. Karthikeyan in European Journal of Plant Pathology

    Article 07 April 2021