Frequent surveys and monitoring were conducted in the Southern part of Bangladesh to detect and identify the plant pathogenic virus that infecting agriculturally important vegetables during 2017-2018. A total of 28 fields of the survey area were closely monitored. The findings indicated that 21.94% of the plants developed typical virus disease like symptomps in the field. However, 28.21% infected plants were found in Patuakhali followed by Satkhira (23.11%), Khulna (19.33%) and Barguna (17.12%). The symptoms were mosaic, vein clearing, chlorosis, curling and ringspot. Twenty samples from the collections were randomly chosen on the basis of symptoms and subjected to Enzyme-linked Immunosorbent Assay (ELISA) with the antiserum and symptomalogy were used for detection. Eight viruses namely Cucumber mosaic virus (CMV), Okra yellow vein clearing mosaic virus (OYVCMV), Mungbean yellow mosaic virus (MYMV), Tomato yellow leaf curl virus (TYLCV), Pepper mottle virus (PMV), Papaya ringspot virus (PRSV), Watermelon mosaic virus (WMV) and Zucchini yellow mosaic virus (ZYMV) were detected on cucumber, okra, brinjal, mungbean, tomato, pepper, papaya, watermelon and pumpkin respectively.
Root knot nematodes were extracted from five different plants (indian spinach, papaya, sweet gourd, okra and jute) collected from kurigram, gazipur, jessore and patuakhali districts of Bangladesh. Firstly, Meloidogyne spp. were identified morphologically mainly based on perineal pattern of adult female. Secondly, female were collected from plant roots and used directly in PCR for amplification of mitochondrial DNA (mtDNA) region between COII and lrRNA genes followed by hinfI digestion and sequencing. The root knot nematodes in indian spinach, jute and sweet gourd were identified as M. incognita whereas in okra and papaya were M. javanica.
Species of root knot nematodes, Meloidogyne spp. were identified through the PCR amplification and sequence analysis of mitochondrial DNA (mtDNA) region between COII and lrRNA genes. Root knot nematodes were extracted from 5 plant samples [kiwi (Japan), rhododendron (Japan), cornus (Japan), ficus (China) and jasmine (Vietnam)] that were collected from Plant Quarantine Station in Korea. At first, species was identified using morphological characters, such as the length and shape of stylet, the tail length and the perineal patterns. Secondary, single individuals of either female and juvenile collected from plant tissues were used for PCR and further sequencing analysis. The results showed that cornus, jasmine and ficus plants were infected by M. incognita, and kiwi and rhododendron plants were infected by M. interolobii.
The objective of this paper is to explore how board gender diversity affects corporate sustainability performance. Therefore, this paper examines the direct association between board gender diversity with corporate sustainability performance and the mediation effect of enterprise risk management (ERM) on this association. The study employed a cross-sectional survey method. Data were collected from annual reports, websites, and through the questionnaires that were distributed to Chief Financial Officers (CFOs) of all the listed companies of Dhaka Stock Exchange, Bangladesh. The partial least square technique of Structural Equation Modelling (SEM) approach was employed for data analysis. The result did not find support for the direct association between board gender diversity and sustainability performance in Bangladesh context. This implies that contextual factors, such as, male-dominant board, appointment of female directors based on family ties, lack of education and expertise etc. may discount gender diversity direct influence on sustainability performance. However, the study finds strong support for the mediating role of ERM use within the corporate structure. Further analysis of indirect effect suggests that ERM use mediates the relationship of board gender diversity and sustainability performance in full. This implies that in the Bangladesh context effective use of ERM is highly recommended.