Abdul Latif scite author profile

The aim of this study was to assess the effect of air pollution on road side fruit plants (Prunus avium L.) palynology. Flower samples were collected from polluted (1-2 m away from the edge of Quetta to Hunna Urak road) and for the comparison from non-polluted sites (250-300 m away from the same collection site). During the investigation different pollen parameters including pollen umbers/production, pollen size, pollen tube growth, pollen viability, pollen regularity and pollen protein contents were used through different methods. Results indicated that pollen grains of Prunus avium L. were very sensitive to automobile air pollution. Consequences showed significant reduction in numbers and sizes of pollen grains, pollen tube length and pollen viability of polluted site with respect to the control site. Maximum irregularity in pollen morphology and low pollen protein contents were also recorded from the polluted site. Moreover, results also designated that vehicular pollution increases the resting period of pollen grains for 1 to 3 h. So the different attributes of pollen grains can be used as sensitive bioindicators of adverse factors in botanical environment and this leads to the idea that reduction in the development and potential of pollen grains in response to various poisonous environmental pollutants can be exploited as a good index of air purity.

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Micronutrient availability to cereals from calcareous soils

Kausar

Chaudhry

Rashid

et al. 1976

Plant Soil

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On several alkaline calcareous soils, Zn and Cu deficiency occurred mainly ill lowland rice (Oryza sativa L.) and was rarely found in wheat (Trilicum aestivum L.). Zinc and Cu requirement of plants was not responsible as the critical Zn and Cu contents ill tops of the two plant species were almost similar i.e. 17.4, 6.5 and 14.5, 5.6 ppm respectively. Neither did rice absorb Zn and Cu less efficiently. On the contrary, their rates of absorption in rice were double than in wheat. They were 22.2, 6.3 and 10.2, 3.3 ng atoms/g fresh root/h respectively in the two plant species. Flooded soil conditions appeared to be responsible for Zn and Cu deficiency in rice as their deficiency was found maillIy in plant samples collected from continuously flooded fields. The mechanism is not known.Both Zn and Cu inhibited uptake of each other in wheat on most of the soils. In rice, only applied Zn depressed Cu uptake but Cu had generally little effect on Zn uptake. Little Cu inhibition of Zn uptake in lowland rice seems to be related to flooded soil conditions. The mechanism is yet to be known. The antagonising element accentuated the deficiency of the other element both in wheat and rice and severely reduced their yields on soils marginal to deficient in Zn or Cu supplies. I t is recommended that their soil availability status should be thoroughly considered before their fertilizers are applied.

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Abdul Latif

Mechanism of differential susceptibility of two rice varieties to zinc deficiency

Diversity of pollinators and their role in the pollination biology of chickpea, Cicer arietinum L. (Fabaceae)

Zinc-copper antagonism in the nutrition of rice (Oryza sativa L.)

Response of Sweet Cherry (Prunus Avium L.) Pollen Grains to Vehicular Exhaust Pollution at Quetta, Balochistan, Pakistan

Micronutrient availability to cereals from calcareous soils

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