ذکر میرا وہ کریں منظور کیوں
جانے وہ الفت سے ہیں معذور کیوں
پوچھتی ہے تم سے یہ میری وفا
جان کر مجھ سے ہوئے رنجور کیوں
آن بیٹھے وہ نظر کے سامنے
قبلہ و کعبہ ہو اب منظور کیوں
ہیں میسر ان کی مست آنکھیں جنھیں
وہ اٹھائیں بادہ و انگور کیوں
تم فضاؔ جب ہو مری محبوب تو
پھر میں دیکھوں حسن کیا اور حور کیوں
Before the birth of the Holy prophet, human society yet again got at the verge of destruction due to apostasy and ignorance. The Holy Prophet introduced Islam to the sinking humanity. For spreading its message "Dawat"; Calling (To God) was made everybody's job. As Allah says in the holy Quran: "The Believers, men and women, are protectors, one of another: they enjoin what is just and forbid what is evil: " (9: 71). There are three fundamental groups of preachers. The first is the "Dawat" of common people to others. It is imperative for such a preacher that he himself should get the knowledge of religion through Islamic law and then communicate every virtue of it to his family, friends, neighbors and close relatives. The second is the place of Nobles. They include the commentators of the Quran, the narrators of the Prophet's Sayings, theologians and the learned scholars. The commentators of the Quran explain the meanings of the verses of the Quran keeping in view the conditions of the Quranic sciences. The narrators interpret the meanings of the Sayings of the Holy Prophet. The theologians or the learned scholars are entitled to discuss the Quran, Prophet's Sayings and the problems of the Islamic laws. The third is the place of the favorites. These people are the perfect successors of the Prophets. They have full control over the knowledge of laws as well as over the knowledge of mysteries. As Allah says: "and purify them", (one of the responsibilities of the Holy Prophet was to purify the souls). At a place it is said: "Truly he succeeds that purifies it" (91: 9). In this article research is done on "Calling (to God) and conveying His message".
Continuous exposure of cadmium (Cd) not only causing deleterious effects on plants but also it is the major issue concerning human health through its entry to food chain. Cd is naturally present in soil or anthropogenically released in the environment. It can easily be translocated to vegetative or edible parts of plants. To limit its exposure to human it is important to select tolerant genotypes that must retain most of Cd in roots and also reduces the physiological and biochemical disturbances in plants. Mungbean is second most edible leguminous crop in Pakistan, rich in proteins and other nutrients. It has the ability to fix soil nitrogen, hence increase soil fertility so widely used as rotational crop. Less research has been done regarding metal toxicity for local mungbean genotypes. In this research, mitigation strategies like application of phytohormones and proline were applied to reduce Cd toxicity in mungbean thus will be helpful in increasing its yield and will help in the screening of tolerant and sensitive genotypes of Pakistan. In the first experiment, eight local mungbean genotypes were grown in hydroponics culture, then were exposed to 0.1 µM Cd for two weeks, and saved for morpho physiological analysis. Growth parameters were decreased during Cd stress. Higher tolerance index for plant dry weight was observed in AZRI-2006 and lowest in NM-51. Xylem sap was collected to analyze Cd accumulation and translocation from roots to shoots. More Cd translocation from roots to shoots via xylem will negatively affect plants and make them sensitive. We observed more Cd translocation factor (4.26%) in NM-51 with worst plant vigor and lower TF (1.47%) in AZRI-2006 with best plant vigor. However NM 19-19 translocated more Cd (4.54%) which was even higher than NM-51 but with good vigor, hence can be used in phytoremediation at Cd contaminated fields as it will absorb more Cd from soil however it is not advised to consume any of NM 19-19 part as food. Second experiment was performed in Petri dishes for the evaluation of eight mungbean genotypes under Cd stress (0.3 mM and 0.5 mM) and its alleviation by pretreatment with phytohormones (100 µM GA3 and 50 µM SA) and proline (5 mM) prior to Cd. Inhibition xxiii in growth, chlorophyll content and total protein in a dose dependent manner, along with increase in antioxidant enzymes (APX, CAT, GPX and SOD) activities were observed in Cd stress. Hydrolytic enzymes (α-amylase and alkaline invertase) activities were decreased under Cd stress with increased activity of acid phosphatase. On the other hand free proline, tannin, H2O2 and MDA content of untreated samples were lower in comparison to Cd treated samples. However, pretreatment with phytohormones and proline prior to Cd stress was found to improve all morphological parameters, alteration in antioxidant and hydrolytic enzymes activities along with decrease in tannin, H2O2 and MDA content. Furthermore, cytogenetic analysis exhibited decrease in mitotic index (MI %) of root cells under Cd stress with various chromosomal aberrations like C-mitosis, laggard, stickiness and fragmentation. Pretreatments before applying Cd were able to decrease the frequencies of chromosomal aberrations. On the basis of above analyzed parameters, it can be concluded that AZRI-2006 was tolerant and NM-51 was sensitive genotype for Cd stress. Tolerant genotype can give better yield with no or less Cd accumulation in plant parts when grown in Cd contaminated area, hence advised to grow AZRI-2006 in such soils. NM 19-19 is such a genotype that absorb Cd in plants with good vigor, therefore it can be grown in Cd contaminated areas to reduce Cd amount in soil and this land can later be used for the cultivation of other crops. Furthermore, priming with phytohormones and proline can be environmental friendly, economical and simple mitigation strategy for Cd stress.