Your search keyword '"Nargis Naz"' showing total 12 results

1. Anatomical characteristic, ionic contents and nutritional potential of Buffel grass (Cenchrus ciliaris L.) under high salinity

Author

Muhammad Aamir Wasim, Syeda Sadaf Zehra, and Nargis Naz

Subjects

Salinity, Soil salinity, Agronomy, Cenchrus ciliaris, Fodder, Shoot, Pith, Plant Science, Biology, Vascular bundle, biology.organism_classification, Bulliform cell

Abstract

Cenchrus ciliaris is a potential forage grass that is widely distributed in saline desert condition across Africa, Australia and Asia. To examine anatomical characteristics relating to ionic and nutritional contents in response to salinity, Cenchrus ciliaris populations from the naturally salt-affected region of the Cholistan Desert, Pakistan were collected. The experiment was planned in a completely randomized design (CRD) with four replications and four treatment levels (0, 100, 200, and 300 mM NaCl) in a hydroponic system. After six months of growth in nutrient solution anatomical characteristics relating to ionic and nutritional traits were studied. It was hypothesized that C. ciliaris at higher salt stress must have developed some specific structural adaptations, which are responsible for better survival under high salt stress. At root level, C. ciliaris showed decreased root thickness with greater proportion of parenchyma cells in cortical region and increased sclerification in cortex and pith regions at high salinity levels, which are vital for water conservation under osmotic stress. At stem level increased stem area, cortical and vascular bundle cell area were recorded with increase in salinity level of external growth medium. Salt tolerance in C. ciliaris mainly associated with restricted uptake of toxic Na+ and Cl− ions at roots, accompanied by increased concentration of K+ and Ca++ in shoot. Under high salinities, C. ciliaris showed increased epidermis thickness, well developed bulliform cells, and increased trichome density at leaf level. All these structural modification in this species may contribute towards water conservations under physiological stress that is caused by high level of soil salinity. Various nutritional traits such as crude protein, ash content, relative feed value, and net energy of lactation slightly improved with salinity. Present study revealed nutritional potential, ionic contents and anatomical adaptations of C. ciliaris to cope with salinity. As such this species can be used to produce valuable fodder under saline desert environment.

Published

2022

2. Adaptive components of tolerance to salinity in a saline desert grass Lasiurus scindicus Henrard

Author

Mansoor Hameed, Nargis Naz, Riffat Batool, Sana Fatima, Farooq Ahmad, Muhammad Ashraf, and Muhammad Sajid Aqeel Ahmad

Subjects

Salinity, Ecotype, Lasiurus scindicus, Shoot, Botany, Xylem, Pith, Biology, biology.organism_classification, Vascular bundle, Bulliform cell, Ecology, Evolution, Behavior and Systematics

Abstract

Five differently adapted natural populations of the native salt desert grass Lasiurus scindicus Henrard from Lesser Cholistan Desert (Pakistan) in South Punjab of east central Pakistan, were evaluated to examine their mechanism of adaptation to saline stress based on some key morpho–anatomical and physiological characteristics. Five ecotypes were collected from one saline site, two moderately saline sites, and two highly saline sites. Anatomical adaptations in each ecotype critically supported the physiological, but the adaptations were of specific nature depending on the type of each site’s normal habitat conditions. Higher salinities resulted in increased Na+, Cl−, Mg2+, Ca2+ and K+ content in root and shoot. At root level, some specific structural modifications like increased sclerification in cortical and pith regions, endodermal thickness, and number and size of xylem vessels are vital for water conservation under osmotic stress. Several characteristics were promising for increasing the plants ability to deal with osmotic stress, including at the stem level, increased sclerification, stem area, cortical region thickness and vascular bundle area, and at the leaf level, significant structural modifications such as leaf thickness, epidermal thickness, sclerenchymatous area, cortical area, metaxylem area and bulliform cell area were promising. All these may contribute towards water conservation, which ultimately account for ecotype survival under saline–induced physiological droughts.

Published

2014

3. Morpho-anatomical and physiological attributes for salt tolerance in sewan grass (Lasiurus scindicus Henr.) from Cholistan Desert, Pakistan

Author

Riffat Batool, Nargis Naz, Muhammad Ashraf, Tanzila Rafique, Sana Fatima, and Mansoor Hameed

Subjects

education.field_of_study, Soil salinity, Ecotype, Physiology, Lasiurus scindicus, Population, Plant Science, Biology, biology.organism_classification, Bulliform cell, Salinity, Agronomy, Osmolyte, Botany, Water-use efficiency, education, Agronomy and Crop Science

Abstract

Three differently adapted populations of sewan grass (Lasiurus scindicus Henr.) were evaluated for structural and functional adaptations to high salinity. The habitats were Derawar Fort (DF, least saline, ECe 15.21), Bailahwala Dahar (BD, moderately saline, ECe 27.56 dS m−1) and Ladam Sir (LS, highly saline, ECe 39.18 dS m−1) from within the Cholistan Desert. The adaptive components of salt tolerance in sewan grass were assessed by determining various morpho–anatomical and physiological attributes. The degree of salt tolerance of all three ecotypes of L. scindicus from the saline habitats was compared in a controlled hydroponic system to evaluate the adaptive components that are expected to be genetically fixed during a long evolutionary process. Salinity tolerance in the most tolerant LS population relied on increased root length and total leaf area, restricted uptake of toxic Cl−, increased uptake of Ca2+, high excretion of Na+, accumulation of organic osmolytes, high water use efficiency, increased root, thicker leaf and cortical region, intensive sclerification, large metaxylem vessels, and dense pubescence on abaxial leaf surface. The BD population (from moderately saline soil) relied on high Ca2+ uptake, Na+ excretion, epidermal thickness, large cortical cells, thick endodermis and large vascular tissue. The DF population (from less saline soil) showed a significant decrease in all morphological characteristics; however, it accumulated organic osmolytes for its survival under high salinities. Structural modifications in all three populations were crucial for checking undue water loss under physiological stress that is caused by high amounts of soluble salts in the soil.

Published

2014

4. Physiological adaptative characteristics of Imperata cylindrica for salinity tolerance

Author

Muhammad Ashraf, Farooq Ahmad, Riffat Batool, Mansoor Hameed, Nargis Naz, Sana Fatima, and Tahira Nawaz

Subjects

education.field_of_study, Imperata, Range (biology), medicine.medical_treatment, Population, Cell Biology, Plant Science, Biology, biology.organism_classification, Biochemistry, Bulliform cell, Salinity, Horticulture, Shoot, Botany, Genetics, medicine, Animal Science and Zoology, Proline, education, Molecular Biology, Saline, Ecology, Evolution, Behavior and Systematics

Abstract

Two populations of cogongrass [Imperata cylindrica (L.) Raeuschel], one from the saline regions of the Salt Range and the other from the non-saline regions of Faisalabad were assessed for salinity tolerance on the basis of some key morphological and physiological attributes. It was hypothesized that the tolerant population from the Salt Range must have developed some specific structural modifications, which are responsible for its better survival under high salinities. These adaptive components can be effectively used in modern technologies for improving degree of tolerance of other sensitive crops. The population from the Salt Range markedly excelled the Faisalabad population in terms of growth and physiological attributes measured in this study. The Faisalabad population of I. cylindrica was unable to survive at the highest salt level (200 mM NaCl). The tolerance of the Salt Range population to salt stress was found to be related to high accumulation of organic osmotica, particularly total free amino acids and proline as well as Ca2+ in the shoot. The distinctive structural modifications in the Salt Range population were found to be enhanced succulence, well-developed bulliform cells in leaves and smaller stomatal area.

Published

2014

5. Modifications in Root and Stem Anatomy for Water Conservation in Some Diverse Blue Panic (Panicum antidotaleRetz.) Ecotypes Under Drought Stress

Author

Muhammad Ashraf, Saima Batool, Nargis Naz, Mansoor Hameed, and Tahira Nawaz

Subjects

Salinity, Water conservation, Nutrient, biology, Ecotype, Exodermis, fungi, Drought tolerance, Botany, Soil Science, Pith, biology.organism_classification, Panicum

Abstract

Five ecotypes of Panicum antidotale Retz. adapted to diverse habitats were subjected to drought stress to evaluate their drought tolerance in relation to adaptive anatomical structures. The ecotype from non-stressed habitat had intensive sclerification as well as crystallization in parenchymatous cells, which help prevent water loss. The ecotype from drought-prone habitat had well-developed metaxylem vessel area for better conduction of water and nutrients, and pith area for better storage of water. The ecotype collected from salinity-affected habitat as well as that from saline and waterlogged habitat showed extensive sclerification in the vascular region, which is vital for preventing water loss. The ecotype from a salinity- and drought-prone habitat showed increased metaxylem vessel number and formation of additional metaxylem vessels in the pith region for better conduction, multi-layer exodermis and intensive sclerification for prevention of water loss, and increased parenchymatous region for better ...

Published

2013

6. Soil-Plant Relationships in the Arid Saline Desert of Cholistan

Author

M. Sajid Aqeel Ahmad, Mansoor Hameed, Tahira Nawaz, Muhammad Ashraf, and Nargis Naz

Subjects

biology, Ecology, ved/biology, Aeluropus lagopoides, Species distribution, ved/biology.organism_classification_rank.species, Soil Science, Vegetation, biology.organism_classification, Spatial distribution, Arid, Salinity, Suaeda fruticosa, Halophyte

Abstract

The inland vegetation of saline patches in the Cholistan desert faces extreme environmental conditions including predominantly salt stress and limited resource availability. Changes in the salinity gradients may lead to gradual variation in response of individual plant species that ultimately affect community structure and composition. The present study was conducted to determine spatial distribution of individual species along a salinity gradient in the Cholistan desert in relation to their life form and tolerance limits. The results showed variable responses of these species in spatial distribution against the salinity gradient. The plants differed considerably in their tolerance level due to development of differential adaptive strategies under extreme salinities. Excretory species like Aeluropus lagopoides and Sporobolus ioclados dominated the sites with highest salinities along with the leafy succulent Suaeda fruticosa. Stem succulents dominated moderate salinities along with spreading stoloniferous ...

Published

2013

7. Impact of fencing on the conservation of wildlife habitat in a sub-mountainous open scrub forest

Author

M. Sajid Aqeel Ahmad, Muhammad Ashraf, Tahira Nawaz, Mansoor Hameed, Abdul Aleem Chaudhry, and Nargis Naz

Subjects

Black francolin, education.field_of_study, biology, Ecology, Population, Endangered species, Francolin, biology.organism_classification, Fencing, Geography, Ammoperdix griseogularis, Alectoris, education, Desert hare, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation

Abstract

In Pakistan, Lehri/Jindi evergreen open scrub forest is a characteristic habitat of critically or locally endangered species including Punjab urial (Ovis vignei punjabiensis) and leopard (Panthera pardus), and the important game species desert hare (Lepus nigricollis), black francolin (Francolinus francolinus), grey francolin (Francolinus pondicerianus), see–see partridge (Ammoperdix griseogularis) and chukor partridge (Alectoris chukar). Four separate fenced enclosures were established to maintain captive Punjab urial population in a semi-wild state. Vegetation surveys were conducted through permanently laid quadrats to explore its impact on native flora in 1987–1992 before the fencing was installed and then 2003–2007 over a decade after the fencing was installed.

Published

2012

8. Leaf structural modifications for drought tolerance in some differentially adapted ecotypes of blue panic (Panicum antidotale Retz.)

Author

Tahira Nawaz, Mansoor Hameed, Nargis Naz, Muhammad Ashraf, and Saima Batool

Subjects

biology, Ecotype, Physiology, fungi, Drought tolerance, food and beverages, Plant physiology, Plant Science, biology.organism_classification, Vascular bundle, Bulliform cell, Horticulture, Botany, Genetic variability, Agronomy and Crop Science, Panicum, Waterlogging (agriculture)

Abstract

Some ecologically different ecotypes of Panicum antidotale Retz. were evaluated for drought tolerance in relation to growth parameters and leaf structural modifications. These ecotypes were adapted to normal non-stressed (agricultural field AF, and sludge of disposal channel SDC), drought-stressed (along roadside AR), salinity-stressed (forest plantation FP), waterlogging and salinity-stressed (inside disposal channel IDC), and drought plus salinity-stressed (barren area BA). On the basis of genetic variability in leaf structural modifications, each ecotype adopted specific strategies to tolerate the extremity of drought stress. The AF and SDC ecotypes relied on water conservation and survival rather than growth and structural modifications by developing epidermis and sclerenchyma on both leaf surfaces. The AR developed xerophytic foliar characteristics in addition to maintaining growth and development under stressed conditions like thick leaves, well-developed bulliform cells, and intensive sclerification. The FP ecotype developed efficient strategy for drought tolerance such as reduced and fibrous leaves, smaller metaxylem vessels, and highly developed bulliform cells. The ecotype IDC relied more on water conservation by increasing leaf epidermal thickness and decreasing stomatal area and density. The ecotype BA showed critical structural adaptations such as thin leaves, extremely developed bulliform and reduced metaxylem area, and parenchyma extensions above vascular bundles. Based on the strategies adopted for drought tolerance, the tolerance level of these ecotypes were rated as BA > AR > FP > IDC > SDC > AF.

Published

2012

9. Anatomical and physiological characteristics relating to ionic relations in some salt tolerant grasses from the Salt Range, Pakistan

Author

Mansoor Hameed, Muhammad Ashraf, and Nargis Naz

Subjects

chemistry.chemical_classification, education.field_of_study, Imperata, biology, Physiology, fungi, Population, food and beverages, Salt (chemistry), Plant physiology, Plant Science, Cynodon dactylon, biology.organism_classification, Aerenchyma, Aerenchyma formation, chemistry, Shoot, Botany, education, Agronomy and Crop Science

Abstract

Populations of three salt tolerant forage grasses (Cynodon dactylon, Imperata cylindrica, and Sporobolus arabicus) were collected from the salt-affected soils of the Salt Range and normal non-saline soils of the Faisalabad region to assess their mechanism of adaptation to saline stress by determining ion relations and some specific anatomical modifications. The population of S. arabicus from the Salt Range showed increased growth (root and shoot length, and root and shoot dry weights) under saline conditions. Salt tolerance in this species was related to structural modifications such as increased area of root, stem, leaf blade, and leaf sheath for toxic ion accumulation, increased vesicular hair density in leaves and aerenchyma formation in leaf sheath for ion exclusion. Uptake of toxic ions was high in the Salt Range population of C. dactylon and salt tolerance was related to ion exclusion through specific leaf structural modifications such as vesicular hairs. Salt tolerance in the Salt Range population of I. cylindrica was mainly associated with restricted uptake of toxic Na+ and Cl− at root level, and accumulation of toxic ions via increased succulence in leaf blades and leaf sheaths in addition to some excretion of toxic ions through leaf sheath aerenchyma.

Published

2010

10. Relationships between gas-exchange characteristics and stomatal structural modifications in some desert grasses under high salinity

Author

Mohammad Arshad, Fahad Al-Qurainy, Nargis Naz, Muhammad Ashraf, and Mansoor Hameed

Subjects

Stomatal conductance, Soil salinity, biology, Physiology, Lasiurus scindicus, ved/biology, Aeluropus lagopoides, fungi, ved/biology.organism_classification_rank.species, Plant Science, biology.organism_classification, Trichome, Salinity, Agronomy, Botany, Water-use efficiency, Transpiration

Abstract

Two populations, one from lesser saline Derawar Fort (DF) and the other from highly saline Ladam Sir (LS) in the Cholistan desert, for each of the five grass species, Aeluropus lagopoides, Cymbopogon jwarancusa, Lasiurus scindicus, Ochthochloa compressa, and Sporobolus ioclados were examined to investigate the influence of salinity on structural and functional characteristics of stomata. Salinity tolerance in A. lagopoides mainly depended on controlled transpiration rate (E) and high water-use efficiency (WUE), which was found to be regulated by fewer and smaller stomata on both leaf surfaces as well as stomatal encryption by epidermal invaginations. C. jwarancusa had sunken stomata on the abaxial surface only, which largely reflected a reduced E, but less affected stomatal conductance (g s) or WUE. L. scindicus had fewer but larger stomata along with hairs/trichomes which may function to avoid water loss through transpiration, and hence, to attain a high WUE. In O. compressa stomata were found only on the abaxial surface and these were completely encrypted by epidermal invaginations as well as a dense covering of microhairs, which was associated with a low E and high WUE under salinity stress. In S. ioclados, the traits of increased stomatal density and decreased stomatal area may be critical for stomatal regulation under salt-prone environments. High stomatal regulation depended largely on stomatal density, area, and degree of encryption under salinity, which is of great ecophysiological significance for plants growing under osmotic stresses.

Published

2010

11. Is soil salinity one of the major determinants of community structure under arid environments?

Author

Nargis Naz, M. Sajid Aqeel Ahmad, Mansoor Hameed, Muhammad Ashraf, and M.I. Arshad

Subjects

Soil salinity, Ecology, ved/biology, Aeluropus lagopoides, fungi, Species distribution, ved/biology.organism_classification_rank.species, Plant community, Biology, biology.organism_classification, Plant ecology, Suaeda fruticosa, Halophyte, Haloxylon, Botany, Ecology, Evolution, Behavior and Systematics

Abstract

Five distinct habitats along salinity gradient were explored for plant ecological attributes including soil plant interaction, vegetation composition and species distribution in the Cholistan desert. Higher saline sites supported Sporobolus ioclados with Aeluropus lagopoides, Cymbopogonjwarancusa, Ochthochloa compressa, Haloxylon recurvum and Suaeda fruticosa , whereas moderately saline habitats supported predominantly Fagonia indica, C. jwarancusa and O. compressa . The community structure and composition of each habitat type were very specific, the most dominant component being S. ioclados . Each species has very specific relation to different environmental variables, and this reflects the habitat status, ecological adaptations and stress tolerance degree of the individual species. On the whole, it can be concluded that salinity alone was not responsible for the distribution of species at salt affected habitats.

Published

2010

12. Anatomical adaptations to salinity in cogon grass [Imperata cylindrica (L.) Raeuschel] from the Salt Range, Pakistan

Author

Mansoor Hameed, Muhammad Ashraf, and Nargis Naz

Subjects

education.field_of_study, Imperata, biology, Ecotype, Population, food and beverages, Soil Science, Plant Science, biology.organism_classification, Vascular bundle, Bulliform cell, Aerenchyma, Salinity, Horticulture, Botany, Halotolerance, education

Abstract

To examine anatomical adaptations in a potential forage grass, Imperata cylindrica (L.) Raeuschel, a population was collected from the natural salt-affected soils of the Salt Range, Pakistan. Using a hydroponic system, the degree of salt tolerance in terms of structural modifications in the Salt Range ecotype was compared with that in an ecotype collected from a normal non-saline habitat of the Faisalabad region. The Salt Range ecotype was superior to the Faisalabad ecotype in biomass production under saline conditions. High salt tolerance of the Salt Range ecotype was associated with increased succulence in root and leaf (mainly midrib), formation of aerenchyma in leaf sheath, increased vascular bundle area, metaxylem area and phloem area, highly developed bulliform cells on leaves and increased sclerification in root and leaf. Furthermore, both stomatal density and stomatal area were considerably reduced under high salinities in the Salt Range ecotype.

Published

2009