The Study of Possible Shariah Non Compliance Risks of Ijarah Along With Their Risk Management Mechanism

The main objective of this research paper is the study of possible Sharīʻaĥ non-compliance risks (SNCRs) of Ijāraĥ along with their risk management mechanism. As the activity of Sharīʻaĥ non-compliance is negligence or failure to comply with the Sharīʻaĥ rules and regulations as well as for some extent, the breach of the law of the land. Hence, Identification, Monitoring, Control and Mitigation of SNCRs need to be undertaken sensitively otherwise the spirit and objective of Islamic banks (IBIs) will be no more than different from Conventional banking system i.e. Interest based banking. Consequently, this new practice of Islamic banking will also be considered Sharīʻaĥ non-compliant. Because, failure in control and mitigation of Sharīʻaĥ non-compliance risks (SNCRs) may render the transaction into Null and Void (Bāṭil) or Voidable (Fāsid) as well as the return/rental would be considered impermissible (Ḥarām). Additionally, it may expose the status of IBIs at high risk regarding their reputation, profitability and confidence of their stakeholders which may lead the system towards collapse and downfall. Keeping in mind the need of the identification of SNCR along with estimated risk management/mitigation tools, this paper is developed to help the industry to develop their own Sharīʻaĥ non-compliance risk management system and to achieve the targeted outcomes i.e. Sound reputation of Islamic banking on the basis of Sharīʻaĥ principles, permissible proceeds/profits through genuine Sharīʻaĥ compliant activities and comprehensive knowledgeable material to understand distinctive and accurate Islamic banking system from Conventional. Targeting the abovementioned goals and aims, the answers of following questions are explored: What is SNCR? Is there any approved and authentic mechanism or SNCR management system in market to manage and mitigate them? Is the SNCR destructive for the profit and goodwill of IBIs? Principally, this research paper is an effort to uncover the SNCRs of Ijāraĥ Product along with the risk management mechanism keeping in sight the modern practices of Ijāraĥ Product.

Physiological, Biochemical and Growth Response of Sunflower to Salinity and Boron

Low concentration of boron (B) is essential to plant growth and may limit the growth in excess quantity especially under saline conditions. Limited information was available regarding B toxicity on sunflower (Helianthus annuus L.) under saline conditions. The present studies were conducted to investigate the interactive effect of salinity and B toxicity. Hydroponics and pot studies were conducted at various B levels under normal and saline conditions. First, 10 sunflower genotypes were screened out against salinity in water culture (control, 60,120 and 180 mM NaCl). SF-187 and S-278 were ranked as tolerant to salinity whereas, Hysun-33 and Hysun-38 were categorized as sensitive genotypes against salinity. These genotypes were grown in hydroponics under saline and non-saline conditions and at control, 0.5 and 1.0 mM boron. Physical and chemical characteristics determined showed reduction in shoot fresh and dry weight was more in salt-sensitive genotypes (Hysun-33 and Hysun-38) than in salt tolerant genotypes (SF- 187 and S-278). Salt-tolerant genotypes accumulate less boron and Na + , while more K + in shoot than salt-sensitive genotypes. Root B and K + accumulation were decreased in saline conditions than non-saline conditions while Na + concentration in root increased in saline conditions. Result regarding relative water content (RWC) and membrane stability index (MSI) showed a reduction pattern with the increasing level of boron toxicity both under non-saline and saline conditions. Salt-tolerant genotypes showed more RWC and MSI than salt sensitive genotypes under saline conditions along with boron toxicity. Photosynthetic rate (PR) stomatal conductance (SC) and transpiration rate (TR) were also decreased with salinity and toxic levels of boron, and salt tolerant genotypes showed better response regarding PR, SC and TR than salt sensitive genotypes. Achene yield per plant decreased under saline conditions along with toxic level of boron and salt tolerant genotypes showed less % reduction than salt sensitive genotypes. Boron and potassium concentrations decreased under saline conditions, while Na + concentration increased under saline conditions (alone) and saline condition and B at 5 ppm concentration. Salt- tolerant genotypes had accumulated less Na + and B concentration and more K + concentration in shoot. Genotypes (SF-187 and S-278) were promising genotypes under saline conditions along with boron toxicity and can be directly used by farmers or may be used for the development of more salinity tolerant sunflower genotypes by the breeders.