In order to obtain qualitative and quantitative characteristics of leaf epidermal micromorphology and mesophyll structure to evaluate the responses ofElaeagnus angustifolia L. to different environmental factors, epide...In order to obtain qualitative and quantitative characteristics of leaf epidermal micromorphology and mesophyll structure to evaluate the responses ofElaeagnus angustifolia L. to different environmental factors, epidermal micromorphology was observed by scanning electron microscopy (SEM), and mesophyll structure was studied by light microscopy (LM) and transmission electron microscopy (TEM). Materials were selected from Linze County, Gansu Province (material A) and Qitai County, Xinjiang Uygur Autonomous Region (material B) of China. Results show that lamina thickness was higher in material A, with one layer of epidermal cells in both adaxial and abaxial surfaces, and epidermal cell radial length was significantly longer in the adaxial surface. E. angustifolia leaves are typically bifacial, with a higher ratio of palisade to spongy tissue in material A. The thickness of trichome layer of epidermis was thicker in material A. In contrast, cell wall and cuticular wax of the epidermal cells were thinner in material A than in material B. Chloroplast ultrastructure was different with the approximate spherical chloroplast containing numerous starch grains and osmiophilic granules in ma- terial A, while only the spindly chloroplast contained starch grains in material B. Multiple layers of peltate or stel- late-peltate trichomes occupied both leaf surfaces in material A and the abaxial surface in material B, while the adaxial surface of material B contained few trichomes. Stomata were not observed on the leaf surfaces in materials A and B by SEM because of trichome obstruction. Our results indicate that the leaf structure of E. angustifolia is closely correlated with environmental factors, and the combination of leaf epidermal micromorphology and mesophyll structure afford re- sistance to environmental stress.展开更多
We assessed the eff ects of arbuscular mycorrhizal fungi(AMF)Rhizophagus irregularis inoculation on salt stress tolerance in roots of the drought-tolerant plant Elaeagnus angustifolia.We studied a plant growth index,s...We assessed the eff ects of arbuscular mycorrhizal fungi(AMF)Rhizophagus irregularis inoculation on salt stress tolerance in roots of the drought-tolerant plant Elaeagnus angustifolia.We studied a plant growth index,spore density and hyphal length density of AMF,the Na+contents and ultrastructure of root cells,as well as rhizosphere soil enzyme activities of mycorrhizal and non-mycorrhizal E.angustifolia seedlings under diff erent salt stress.Under salt stress,growth of E.angustifolia with mycorrhizal inoculation was higher than that of non-inoculated treatments.The spore density and hyphal length density decreased signifi cantly under salt stress in rhizosphere soil of mycorrhizal E.angustifolia seedlings(p<0.05).The root cells of E.angustifolia seedlings inoculated with R.irregularis at 300 mmol L−1 salt had more organelles,greater integrity,and lower root Na+contents than those of non-inoculated seedlings.In addition,the results showed notably higher activities of catalase,phosphatase,urease and saccharase in rhizosphere soil of the mycorrhizal seedlings in response to salinity compared to those of the non-mycorrhizal seedlings.Therefore,AMF inoculation could enhance salt stress tolerance in roots of E.angustifolia.展开更多
From circa 1970,Elaeagnus angustifolia(olivillo,Russian olive)has been a notorious invader in the valley livestock fields at Mid Valley of Rio Negro,in North Patagonia,Argentina.The species colonized riparian and plai...From circa 1970,Elaeagnus angustifolia(olivillo,Russian olive)has been a notorious invader in the valley livestock fields at Mid Valley of Rio Negro,in North Patagonia,Argentina.The species colonized riparian and plain areas forming different stands.Once introduced in this semiarid region,the seasonal and yearly climatic variations,as well as the flow regimen of the river,influenced the colonization speed.Depending on the landscape,E.angustifolia stands may develop as monospecific groups or in associations with other trees,leaving some uninvaded areas in-between.The different shapes and the main species forming the canopy of the stands,affect the floristic composition,and the cattle forage quality,of the US(Understory)community,if compared with the uninvaded zones.Other herbaceous community can be distinguished at the stands'border.The description of the different stages on E.angustifolia colonization in Mid Valley for 25 years,shows that the colonization was hastened by rainy years and wet soils.Once established,and while the new specimens reached the reproductive age,the enhancement of the population was the result of vegetative sprouting and diminished US diversity.This period was immediately followed by drought years,but the amelioration of soil quality of the already nitrogen fixating roots and the attenuation of incident sunlight,benefited herbaceous strata under the canopy of all the stand with Russian olive.Posterior changes in trees composition and management of the cattle fields,influenced US diversity.Today,the herbaceous composition studies show that,under dense monospecific population of E.angustifolia,the pasture reduces forage quality because of the dominance of non-palatable species.Stands'border areas combine an enhanced nitrogen content in soils,and enough light to develop a herbaceous community of annual and perennial grasses and forbs.An increment on biodiversity and spontaneous forage biomass is noticed after the Russian olive plants are removed.展开更多
The presence and growth cycle of the browse Elaeagnus angustifolia(olivillo,Russian olive),naturalized in the Mid Valley,Rio Negro,Argentina,must be considered in the yearly schedule of rangeland management.Field obse...The presence and growth cycle of the browse Elaeagnus angustifolia(olivillo,Russian olive),naturalized in the Mid Valley,Rio Negro,Argentina,must be considered in the yearly schedule of rangeland management.Field observations showed that cattle prefer the leaves of this species that are included on the reproductive branches which develop as a thyrse inflorescence.In this trial,authors studied the incidence of E.angustifolia in the breeding cow’s diet as determined by microhistological analysis of cow feces;mapped the distribution patterns in a cattle farm and quantified its abundance in different parcels;estimated the volume of forage produced by this species and determined the nutritive value of the edible parts of the plants.The quality and quantity of the thyrses accessible for cow’s browse suggest that E.angustifolia must be considered as an important feed input.The results are used to schedule grazing periods in a valley farm divided into plots with different abundances of E.angustifolia and a known floristic composition.展开更多
Multiplication of Elaeagnus angustifolia L. was examined in vitro successively from a single shootunder the specified condition of different media, plant growth regulators, pH value and sucrose concentration.It was sh...Multiplication of Elaeagnus angustifolia L. was examined in vitro successively from a single shootunder the specified condition of different media, plant growth regulators, pH value and sucrose concentration.It was showed that MMS1 was the most suitable medium on shoot multiplication among 5 media concerned;BAP was the most effective one among all the cytokinin involved, BAP, KN, TDZ and ZT; the explant of thetop half-part from a shoot produced more new shoots than that of the foot half-part did; more new shoots (>2 cm) were produced under 3 % sucrose between the concentrations with top half-part explants; shoots couldgrow well between pH 4.4 and pH 7.0, and the biggest number of shoots was produced in pH 5.6, while inpH 5.8 the maximum rooting rate appeared. As a result, the combination of 0.5 mM BAP and 0.1mM IBAon MMS1 medium induced the maximum shoot multiplication. The number of shoot amplified 3 times in 1month, and 312 shoots (>2 cm) might be theoretically multiplied annually from a single shoot.展开更多
Three polysaccharides, TAA, TAB, TAC have been isolated from the pollen of Typha angustifolia L. , and purified by hot water extraction, alcohol precipitation, Sevage method, gel filtration (Sephadex G50) and ion-exch...Three polysaccharides, TAA, TAB, TAC have been isolated from the pollen of Typha angustifolia L. , and purified by hot water extraction, alcohol precipitation, Sevage method, gel filtration (Sephadex G50) and ion-exchange chromatography on DEAE Sephadex A25 and DEAE-cellulose. Their purities were tested by gel filtration and electrophoresis. Their structures were characterized by paper chromatography of the hydrolysis products, GLC analysis of the alditol acetates, alkylation analysis, 1H NMR and 13C NMR spectra. TAA is mainly composed of a-L-arabinofuanose, β-D-galactose and α-D-galacturonic acid, while the backbones of TAB and TAC are composed of (1→5)-linked α- L-arabinofuranosyl residues.展开更多
基金supported by the National Natural Science Foundation of China(Grant No.91125029)the State Key Development Program for Basic Research of China(973 Program,Grant No.2013CB429904)
文摘In order to obtain qualitative and quantitative characteristics of leaf epidermal micromorphology and mesophyll structure to evaluate the responses ofElaeagnus angustifolia L. to different environmental factors, epidermal micromorphology was observed by scanning electron microscopy (SEM), and mesophyll structure was studied by light microscopy (LM) and transmission electron microscopy (TEM). Materials were selected from Linze County, Gansu Province (material A) and Qitai County, Xinjiang Uygur Autonomous Region (material B) of China. Results show that lamina thickness was higher in material A, with one layer of epidermal cells in both adaxial and abaxial surfaces, and epidermal cell radial length was significantly longer in the adaxial surface. E. angustifolia leaves are typically bifacial, with a higher ratio of palisade to spongy tissue in material A. The thickness of trichome layer of epidermis was thicker in material A. In contrast, cell wall and cuticular wax of the epidermal cells were thinner in material A than in material B. Chloroplast ultrastructure was different with the approximate spherical chloroplast containing numerous starch grains and osmiophilic granules in ma- terial A, while only the spindly chloroplast contained starch grains in material B. Multiple layers of peltate or stel- late-peltate trichomes occupied both leaf surfaces in material A and the abaxial surface in material B, while the adaxial surface of material B contained few trichomes. Stomata were not observed on the leaf surfaces in materials A and B by SEM because of trichome obstruction. Our results indicate that the leaf structure of E. angustifolia is closely correlated with environmental factors, and the combination of leaf epidermal micromorphology and mesophyll structure afford re- sistance to environmental stress.
基金This work was supported by Key Laboratory of Microbiology,College of Heilongjiang Province.We would also like to thank Elizabeth Tokarz at the Yale University for her assistance with English language and grammatical editing of the manuscript.
文摘We assessed the eff ects of arbuscular mycorrhizal fungi(AMF)Rhizophagus irregularis inoculation on salt stress tolerance in roots of the drought-tolerant plant Elaeagnus angustifolia.We studied a plant growth index,spore density and hyphal length density of AMF,the Na+contents and ultrastructure of root cells,as well as rhizosphere soil enzyme activities of mycorrhizal and non-mycorrhizal E.angustifolia seedlings under diff erent salt stress.Under salt stress,growth of E.angustifolia with mycorrhizal inoculation was higher than that of non-inoculated treatments.The spore density and hyphal length density decreased signifi cantly under salt stress in rhizosphere soil of mycorrhizal E.angustifolia seedlings(p<0.05).The root cells of E.angustifolia seedlings inoculated with R.irregularis at 300 mmol L−1 salt had more organelles,greater integrity,and lower root Na+contents than those of non-inoculated seedlings.In addition,the results showed notably higher activities of catalase,phosphatase,urease and saccharase in rhizosphere soil of the mycorrhizal seedlings in response to salinity compared to those of the non-mycorrhizal seedlings.Therefore,AMF inoculation could enhance salt stress tolerance in roots of E.angustifolia.
文摘From circa 1970,Elaeagnus angustifolia(olivillo,Russian olive)has been a notorious invader in the valley livestock fields at Mid Valley of Rio Negro,in North Patagonia,Argentina.The species colonized riparian and plain areas forming different stands.Once introduced in this semiarid region,the seasonal and yearly climatic variations,as well as the flow regimen of the river,influenced the colonization speed.Depending on the landscape,E.angustifolia stands may develop as monospecific groups or in associations with other trees,leaving some uninvaded areas in-between.The different shapes and the main species forming the canopy of the stands,affect the floristic composition,and the cattle forage quality,of the US(Understory)community,if compared with the uninvaded zones.Other herbaceous community can be distinguished at the stands'border.The description of the different stages on E.angustifolia colonization in Mid Valley for 25 years,shows that the colonization was hastened by rainy years and wet soils.Once established,and while the new specimens reached the reproductive age,the enhancement of the population was the result of vegetative sprouting and diminished US diversity.This period was immediately followed by drought years,but the amelioration of soil quality of the already nitrogen fixating roots and the attenuation of incident sunlight,benefited herbaceous strata under the canopy of all the stand with Russian olive.Posterior changes in trees composition and management of the cattle fields,influenced US diversity.Today,the herbaceous composition studies show that,under dense monospecific population of E.angustifolia,the pasture reduces forage quality because of the dominance of non-palatable species.Stands'border areas combine an enhanced nitrogen content in soils,and enough light to develop a herbaceous community of annual and perennial grasses and forbs.An increment on biodiversity and spontaneous forage biomass is noticed after the Russian olive plants are removed.
文摘The presence and growth cycle of the browse Elaeagnus angustifolia(olivillo,Russian olive),naturalized in the Mid Valley,Rio Negro,Argentina,must be considered in the yearly schedule of rangeland management.Field observations showed that cattle prefer the leaves of this species that are included on the reproductive branches which develop as a thyrse inflorescence.In this trial,authors studied the incidence of E.angustifolia in the breeding cow’s diet as determined by microhistological analysis of cow feces;mapped the distribution patterns in a cattle farm and quantified its abundance in different parcels;estimated the volume of forage produced by this species and determined the nutritive value of the edible parts of the plants.The quality and quantity of the thyrses accessible for cow’s browse suggest that E.angustifolia must be considered as an important feed input.The results are used to schedule grazing periods in a valley farm divided into plots with different abundances of E.angustifolia and a known floristic composition.
文摘Multiplication of Elaeagnus angustifolia L. was examined in vitro successively from a single shootunder the specified condition of different media, plant growth regulators, pH value and sucrose concentration.It was showed that MMS1 was the most suitable medium on shoot multiplication among 5 media concerned;BAP was the most effective one among all the cytokinin involved, BAP, KN, TDZ and ZT; the explant of thetop half-part from a shoot produced more new shoots than that of the foot half-part did; more new shoots (>2 cm) were produced under 3 % sucrose between the concentrations with top half-part explants; shoots couldgrow well between pH 4.4 and pH 7.0, and the biggest number of shoots was produced in pH 5.6, while inpH 5.8 the maximum rooting rate appeared. As a result, the combination of 0.5 mM BAP and 0.1mM IBAon MMS1 medium induced the maximum shoot multiplication. The number of shoot amplified 3 times in 1month, and 312 shoots (>2 cm) might be theoretically multiplied annually from a single shoot.
文摘Three polysaccharides, TAA, TAB, TAC have been isolated from the pollen of Typha angustifolia L. , and purified by hot water extraction, alcohol precipitation, Sevage method, gel filtration (Sephadex G50) and ion-exchange chromatography on DEAE Sephadex A25 and DEAE-cellulose. Their purities were tested by gel filtration and electrophoresis. Their structures were characterized by paper chromatography of the hydrolysis products, GLC analysis of the alditol acetates, alkylation analysis, 1H NMR and 13C NMR spectra. TAA is mainly composed of a-L-arabinofuanose, β-D-galactose and α-D-galacturonic acid, while the backbones of TAB and TAC are composed of (1→5)-linked α- L-arabinofuranosyl residues.