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91.
采用盆栽试验,在香蕉假植大苗培育过程中分别喷施浓度均为20 mg/L的赤霉素、复硝酚钠、胺鲜酯、α-萘乙酸钠等植物生长促进剂,以喷施清水为对照,通过不同处理假植大苗生长、物质累积及生理指标的分析,明确不同植物生长促进剂在香蕉假植大苗调控的作用。结果表明,本试验采用的4种植物生长促进剂对香蕉假植大苗培育的调控作用不同。与对照相比,叶面分别喷施20mg/L赤霉素、复硝酚钠均能有利于香蕉假植大苗假茎高及叶面积增加,提高叶绿素含量及叶绿素a、b含量,且以上两种植物生长促进剂平均提高叶绿素含量26.46%;喷施20mg/Lα-萘乙酸钠能提高假植苗假茎粗,提高干物质累积量16.11%积及吸氮量9.95%,促进氮磷钾养分吸收。叶面喷施赤霉素、复硝酚钠、α-萘乙酸钠和胺鲜酯均能显著提高香蕉假植大苗抗性,平均降低丙二醛含量14.64%、提高脯氨酸含量64.36%和SOD含量16.74%,且赤霉素还能显著提高POD含量82.13%。 相似文献
92.
壳寡糖(chito-oligosaccharide,COS)被认为具有促进植物生长发育,抑制病毒、细菌、真菌等作用,作为一种新型的多功能生物农药,在植物生长调节及诱导植物抗逆性、抗病性等方面显示了极大的应用潜力。试验研究发现,在晚熟甜橙塔罗科(Tarocco)血橙新系生产中喷施50 mg L-1壳寡糖,单株产量提高13.9%, 可溶性固形物含量增加0.5%,明显增强树势,提高抗旱、抗寒能力,促进生长,提高坐果率、减少裂果,落果,对提高产量和改善品质作用效果明显。 相似文献
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94.
2001~2004年,对中国16个省(直辖市、自治区)部分地区的马铃薯线虫进行了采样调查,并分离鉴定出7个纽带亚科线虫,其中6个是马铃薯上的新记录种。笔者对其中4个种:松树拟盘旋线虫(Pararotylen-chus piniMamiya,1968)、假强壮螺旋线虫[Helicotylenchus pseudorobustus(Steiner,1914)Golden,1956]、双宫螺旋线虫[H.dihystera(Cobb,1890)Sher,1961]和明茨螺旋线虫(H.minziSher,1966)的形态进行了描述。 相似文献
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98.
Community structure and carbon and nitrogen storage of sagebrush desert under grazing exclusion in Northwest China 总被引:1,自引:0,他引:1
Overgrazing is regarded as one of the key factors of vegetation and soil degradation in the arid and semi-arid regions of Northwest China.Grazing exclusion(GE)is one of the most common pathways used to restore degraded grasslands and to improve their ecosystem services.Nevertheless,there are still significant controversies concerning GE’s effects on grassland diversity as well as carbon(C)and nitrogen(N)storage.It remains poorly understood in the arid desert regions,whilst being essential for the sustainable use of grassland resources.To assess the effects of GE on community characteristics and C and N storage of desert plant community in the arid desert regions,we investigated the community structure and plant biomass,as well as C and N storage of plants and soil(0-100 cm depth)in short-term GE(three years)plots and adjacent long-term freely grazing(FG)plots in the areas of sagebrush desert in Northwest China,which are important both for spring-autumn seasonal pasture and for ecological conservation.Our findings indicated that GE was beneficial to the average height,coverage and aboveground biomass(including stems,leaves and inflorescences,and litter)of desert plant community,to the species richness and importance values of subshrubs and perennial herbs,and to the biomass C and N storage of aboveground parts(P<0.05).However,GE was not beneficial to the importance values of annual herbs,root/shoot ratio and total N concentration in the 0-5 and 5-10 cm soil layers(P<0.05).Additionally,the plant density,belowground biomass,and soil organic C concentration and C storage in the 0-100 cm soil layer could not be significantly changed by short-term GE(three years).The results suggest that,although GE was not beneficial for C sequestration in the sagebrush desert ecosystem,it is an effective strategy for improving productivity,diversity,and C and N storage of plants.As a result,GE can be used to rehabilitate degraded grasslands in the arid desert regions of Northwest China. 相似文献
99.
Farzaneh KHAJOEI NASAB 《干旱区科学》2020,12(6):1031-1045
Climate change may cause shifts in the natural range of species especially for those that are geographically restricted and/or endemic species. In this study, the spatial distribution of five endemic and threatened species belonging to the genus Onosma (including O. asperrima, O. bisotunensis, O. kotschyi, O. platyphylla, and O. straussii) was investigated under present and future climate change scenarios: RCP2.6 (RCP, representative concentration pathway; optimistic scenario) and RCP8.5 (pessimistic scenario) for the years 2050 and 2080 in Iran. Analysis was conducted using the maximum entropy (MaxEnt) model to provide a basis for the protection and conservation of these species. Seven environmental variables including aspect, depth of soil, silt content, slope, annual precipitation, minimum temperature of the coldest month, and annual temperature range were used as main predictors in this study. The model output for the potential habitat suitability of the studied species showed acceptable performance for all species (i.e., the area under the curve (AUC)>0.800). According to the models generated by MaxEnt, the potential current patterns of the species were consistent with the observed areas of distributions. The projected climate maps under optimistic and pessimistic scenarios (RCP2.6 and RCP8.5, respectively) of 2050 and 2080 resulted in reductions and expansions as well as positive range changes for all species in comparison to their current predicted distributions. Among all species, O. bisotunensis showed the most significant and highest increase under the pessimistic scenario of 2050 and 2080. Finally, the results of this study revealed that the studied plant species have shown an acute adaptability to environmental changes. The results can provide useful information to managers to apply appropriate strategies for the management and conservation of these valuable Iranian medicinal and threatened plant species in the future. 相似文献
100.
Sollepura B. Rajini Murali Nandhini Arkere C. Udayashankar Siddapura R. Niranjana Ole S. Lund Harischandra S. Prakash 《Plant pathology》2020,69(4):642-654
The diversity of fungal endophytes in Sorghum bicolor was investigated in samples collected from 10 different geographical regions of Karnataka state, India. A total of 360 endophytes were isolated from leaf, stem, and root tissues and were assigned to 26 fungal species based on morphology and molecular characterization using ITS sequences. All the endophytes belonged to the phylum Ascomycota. The diversity (Shannon H, 2.57; Simpson_1-D, 0.92) and species richness (Margalef's, 4.68; Menhinick, 3.61) were found to be higher for the endophytes isolated from leaf tissues. The species evenness of the endophytic assemblage was strongly influenced by tissue type, followed by geographical location. The biocontrol potential of isolated endophytes was evaluated against economically destructive sorghum grain mould pathogens such as Fusarium thapsinum, Epicoccum sorghinum, Alternaria alternata, and Curvularia lunata using the dual culture method. Biocontrol potential was exhibited by 26 endophytic isolates, of which Trichoderma asperellum recorded broad-spectrum activity against target pathogens, followed by E. nigrum and A. longipes. Most (82%) endophytes showed plant growth-promoting traits. Biosynthesis of indole-3-acetic acid (IAA) was observed in 84% of isolates, and phosphate solubilization, siderophore production, and cellulase activity was observed in 69%, 23%, and 27% of isolates, respectively. Seeds treated with T. asperellum exhibited a significantly higher seed vigour index (2096), germination percentage (94%), and yield under greenhouse and field conditions. The results were substantiated by the confocal microscopy analysis, which clearly demonstrated the colonization of treated endophyte in root tissues. The present study reveals an ecofriendly approach to explore T. asperellum in sorghum disease management. 相似文献