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Farib Noedoost, Somaye Dehdari, Damon Razmjoei, Rahele Ahmadpour, Parvaneh Shoukat,
Volume 4, Issue 4 (3-2018)
Abstract

Ferula stenocarpa from Apiaceae family is a perennial plant with about 2 meters height, which grows in the high temperature of sudanian regions. This research was aimed to investigate the autecology of an endemic plant to Iran, Ferula stenocarpa, in Khuzestan province. Initially, the habitat map was prepared and characteristics of the species habitat including topography, climate, soil properties, companion species, palynology, anatomical studies were determined. In addition, the phenology stage and root system was investigated. The results show that this species is distributed in the altitudes ranging from 159 to 850 m.a.s.l., with the mean annual precipitation of 112.4 to 482.9 millimeters and mean annual temperature of 24.47 to 25.93 ºC. This plant species is found in habitats with different topographic aspects and no slope limitations with slopes 40-60% as preferred slopes. Soil texture was loam, clay loam and silty loam, weak alkaline, and poor in phosphorus and nitrogen. Electrical Conductivity is 1-0.72 ds/m and soil pH of 7.47-7.85. The vegetative growth of this species starts from mid-March. The flowers appear in April and seeds ripen in late on May. The plant propagates only by seeds. Pollen is prolate, elliptic and tricolporate. The destruction of natural habitats of this plant due to overgrazing causes that we find this plant as individual and scattered spots in their natural habitat.
 
Fateme Mousavi, Youcef Shahali, José Oteros, Karl-Christian Bergmann,
Volume 9, Issue 2 (9-2022)
Abstract

Pollen respiratory allergies have been increasing in prevalence over the last two decades, partly as the result of the impact of climate change. For many allergenic trees, grass and weed species, increased pollen production and prolonged pollination period result in long-term increased abundance of pollen allergens in the atmosphere; earlier shifts of airborne pollen grains and prolonged exposure to respiratory allergens with important health effects on allergic individuals. The aim of this review paper was to investigate the impact of climate change and meteorological factors on pollen season indicators with a special focus on the main allergenic taxa worldwide. Main variables influencing flowering phenology such as location, climatic and meteorological parameters were identified, discussed and substantiated by published literature. Temperature, solar radiation, humidity, rainfall, wind speed and direction were identified among the most important meteorological parameters affecting the fluctuations of annual concentrations of allergenic airborne pollen grains. Although notable variations were observed according to allergenic species and studied geographical areas, temperature appeared to be the most important climatic parameter affecting flowering phenology and pollen season indicators, especially in tree species. Rising carbon dioxide levels also result in increased plant biomass, increased flowering intensity and pollen production in several tree, grass and weed allergenic species. In the light of this review, there is a growing body of evidence supporting the effect of climate change on the flowering phenology and pollen season indicators of a substantial number of allergenic ornamental and invasive plant species.
 

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