Both yield and quality of Lanzhou lily(Lilium davidii var. unicolor) are seriously affected by continuous cropping. We attempted to understand the effects of intercropping on the obstacles associated with continuous c...Both yield and quality of Lanzhou lily(Lilium davidii var. unicolor) are seriously affected by continuous cropping. We attempted to understand the effects of intercropping on the obstacles associated with continuous cropping of Lanzhou lily(Lilium davidii var. unicolor). The changes of rhizosphere microbial biomass and diversity in interplanting and monoculturing systems were studied by using the Illumina Hi Seq sequencing technique. The contents and composition of lily root exudates were measured by gas chromatography–mass spectrometer(GC–MS). The intercropping results of Lanzhou lily showed:(1) There was no difference in the composition of the rhizosphere soil microbes at the phylum level, but the relative abundance of the microbes decreased; and the relative abundance of harmful fungi such as Fusarium sp. increased. The relative abundance of Pleosporales sp. and other beneficial bacteria were reduced. After OTU(operational taxonomic unit)clustering, there were some beneficial bacteria, such as Chaetomium sp., in the lily rhizosphere soil in the interplanting system that had not existed in the single-cropping system. We did not find harmful bacteria that had existed in the single-cropping systm in the rhizosphere soil of interplanting system. The above results indicated that the changes of relative abundance of soil fungi and bacteria in lily rhizosphere soil was not conducive to improving the ecological structure of rhizosphere soil microbes. At the same time, the microbial composition change is very complex—beneficial and yet inadequate at the same time.(2) Root exudates provide a matrix for the growth of microorganisms. Combined with the detection of root exudates, the decrease in the composition of the root exudates of the lily was probably the reason for the decrease of the relative abundance of microbes after intercropping. At the same time, the decrease of the relative content of phenolic compounds, which inhibit the growth of microorganisms, did not increase the relative content of rhizosphere soil microorganisms. Changes in amino acids and total sugars may be responsible for the growth of Fusarium sp.. The results showed that the intercropping pattern did not noticeably alleviate the obstacle to continuous cropping of Lanzhou lily, and the change of microbial biomass and diversity was even unfavorable. However, the emergence of some beneficial bacteria, the disappearance of harmful fungi, and other changes with intercropping are in favor of alleviation of obstacles to continuous cropping of Lanzhou lily.展开更多
LFY family genes play a conserved role in regulating flowering. In this study, the cDNA of LiLFY1 was isolated with the strategy of RT-PCR in combination with RACE from lily (Lilium longiflorum Thunb.). LiLFY1 encod...LFY family genes play a conserved role in regulating flowering. In this study, the cDNA of LiLFY1 was isolated with the strategy of RT-PCR in combination with RACE from lily (Lilium longiflorum Thunb.). LiLFY1 encodes a LFY transcriptional factor. The alignment analysis of the deduced LiLFY1 protein with other known LFY family proteins indicates that LiLFY1 is highly homologous with rice RFL and maize FLL. The result of Southern hybridization showed that there are two copies of LFY family genes in lily. LiLFY1 is expressed in young flower buds and shoot apical meristem (SAM) but not in roots, shoots, mature leaves, and mature floral organs. The cloned LiLFY1 gene may be applied to genetic engineering aiming for regulating the flowering time in lily.展开更多
Changes in carbohydrate, phenols, free amino acids and endogenous hormones in middle scales of Lilium davidii var.unicolor bulbs during the 101 days storage at 2, 6 and 10°C in moist sawdust were studied. The res...Changes in carbohydrate, phenols, free amino acids and endogenous hormones in middle scales of Lilium davidii var.unicolor bulbs during the 101 days storage at 2, 6 and 10°C in moist sawdust were studied. The results indicated that asthe storage time increased and the storage temperature delined, contents of starch and abscisic acid (ABA) decreasedmarkedly, and the level of total soluble sugar, phenols, gibberellic acid (GA3) and indole acetic acid (IAA) increasedsharply. In the first 34 days, the contents of the above substances changed most actively. Correlation analysis revealedthat the increase in content of total soluble sugar and phenols was respectively caused by activation of amylase andphenylalanine ammonia-lyase (PAL). During the storage, the content of free amino acids decreased, and the level ofarginine was the highest and changed most remarkably. According to the results of stepwise regression analysis and pathanalysis, we could primarily conclude that the metabolism of carbohydrates, phenols and free amino acids in the middlescales may be mainly regulated by endogenous GA3.展开更多
植物名称及其所对应的原植物,在世界各国或地区均大量存在同名异物或同物异名的现象,极易造成混淆,不可不辨。以"lily"为研究对象,利用http:∥scholar.google.com和http:∥apps.web of knowledge.com文献检索平台,查询国内外...植物名称及其所对应的原植物,在世界各国或地区均大量存在同名异物或同物异名的现象,极易造成混淆,不可不辨。以"lily"为研究对象,利用http:∥scholar.google.com和http:∥apps.web of knowledge.com文献检索平台,查询国内外使用"lily"作为关键词或主题词的文献,分别得到534 000条和11 734条检索信息,然而,以"lilium"为关键词和主题词进行二级检索时,却只能得到27 000条和6 087条检索信息。在此基础上,对这些含有"lily"的词或词组进行归类分析,结果显示:"lily"本意为百合属Lilium植物,但是英文名称中含有"lily"的词或词组并非都是百合,其代表的含义十分广泛,不仅包括百合科、秋海棠科、石蒜科、天南星科及人工杂交种等多种植物,而且在某些动物名称中也含有"lily"。可见,含有"lily"的英文词或词组所代表的名称和原植物较多,而且十分复杂,在文献检索以及相关研究中应注意区分。展开更多
Predicting the potential distribution of medicinal plants in response to climate change is essential for their conservation and management. Contributing to the management program, this study aimed to predict the distr...Predicting the potential distribution of medicinal plants in response to climate change is essential for their conservation and management. Contributing to the management program, this study aimed to predict the distribution of two threatened medicinal plants, Fritillaria cirrhosa and Lilium nepalense. The location of focal species gathered from herbarium specimen housed in different herbaria and online databases were geo-referenced and checked for spatial autocorrelation. The predictive environmental variables were selected, and MaxEnt software was used to model the current and future distributions of focal species. Four Representative Concentration Pathway (RCP) trajectories of the BCC-CSMI.1 model were used as the future (2050) projection layer. The MaxEnt modelling delineated the potential distribution of F. cirrhosa and L. nepalense. The current suitability is projected towards Central and Eastern Hilly/Mountainous regions. Both species gain maximum suitability in RCP 4.5 which decline towards other trajectories for L. nepalense. Overall, both the focal species shift towards the north-west, losing their potential habitat in hilly and lower mountainous regions by 2050 across all trajectories. Our results highlight the impact of future climate change on two threatened and valuable species. The results can be further useful to initiate farming of these medicinally and economically important species based on climatically suitable zone and for designing a germplasm conservation strategy.展开更多
The effects of the microspore developmental stage,hormones and culture condition on anther in vitro culture of lily(Lilium spp.) were discussed.The results showed that when the flower buds were about 23-26 mm long,t...The effects of the microspore developmental stage,hormones and culture condition on anther in vitro culture of lily(Lilium spp.) were discussed.The results showed that when the flower buds were about 23-26 mm long,the microspores were at the uninucleate stage which was suitable for culture and the culture under the darkness would promote the callus induction of anther.The induction frequency could reach 42.5% in the optimized medium which was MS+[6-BA(0.5)+KT(2.0)+2,4-D(1.0)] mg·L-1.The rate of callus differentiation could reach 31.57% in the optimized medium which was MS+ NAA(1.5,2.0) mg·L-1.展开更多
基金funded by Lanzhou Branch of the Chinese Academy of Sciences institutional cooperation program(2BY52BI61)the Key program of Chinese Academy of Sciences(22Y622AM1)
文摘Both yield and quality of Lanzhou lily(Lilium davidii var. unicolor) are seriously affected by continuous cropping. We attempted to understand the effects of intercropping on the obstacles associated with continuous cropping of Lanzhou lily(Lilium davidii var. unicolor). The changes of rhizosphere microbial biomass and diversity in interplanting and monoculturing systems were studied by using the Illumina Hi Seq sequencing technique. The contents and composition of lily root exudates were measured by gas chromatography–mass spectrometer(GC–MS). The intercropping results of Lanzhou lily showed:(1) There was no difference in the composition of the rhizosphere soil microbes at the phylum level, but the relative abundance of the microbes decreased; and the relative abundance of harmful fungi such as Fusarium sp. increased. The relative abundance of Pleosporales sp. and other beneficial bacteria were reduced. After OTU(operational taxonomic unit)clustering, there were some beneficial bacteria, such as Chaetomium sp., in the lily rhizosphere soil in the interplanting system that had not existed in the single-cropping system. We did not find harmful bacteria that had existed in the single-cropping systm in the rhizosphere soil of interplanting system. The above results indicated that the changes of relative abundance of soil fungi and bacteria in lily rhizosphere soil was not conducive to improving the ecological structure of rhizosphere soil microbes. At the same time, the microbial composition change is very complex—beneficial and yet inadequate at the same time.(2) Root exudates provide a matrix for the growth of microorganisms. Combined with the detection of root exudates, the decrease in the composition of the root exudates of the lily was probably the reason for the decrease of the relative abundance of microbes after intercropping. At the same time, the decrease of the relative content of phenolic compounds, which inhibit the growth of microorganisms, did not increase the relative content of rhizosphere soil microorganisms. Changes in amino acids and total sugars may be responsible for the growth of Fusarium sp.. The results showed that the intercropping pattern did not noticeably alleviate the obstacle to continuous cropping of Lanzhou lily, and the change of microbial biomass and diversity was even unfavorable. However, the emergence of some beneficial bacteria, the disappearance of harmful fungi, and other changes with intercropping are in favor of alleviation of obstacles to continuous cropping of Lanzhou lily.
基金the grant of National Center for Plant Gene Research,Institute of Genetics and Developmental Biology,Chinese Academy of Sciences,in Beijing
文摘LFY family genes play a conserved role in regulating flowering. In this study, the cDNA of LiLFY1 was isolated with the strategy of RT-PCR in combination with RACE from lily (Lilium longiflorum Thunb.). LiLFY1 encodes a LFY transcriptional factor. The alignment analysis of the deduced LiLFY1 protein with other known LFY family proteins indicates that LiLFY1 is highly homologous with rice RFL and maize FLL. The result of Southern hybridization showed that there are two copies of LFY family genes in lily. LiLFY1 is expressed in young flower buds and shoot apical meristem (SAM) but not in roots, shoots, mature leaves, and mature floral organs. The cloned LiLFY1 gene may be applied to genetic engineering aiming for regulating the flowering time in lily.
基金This work was supported by the National Natural Science Foundation of China(30400307).
文摘Changes in carbohydrate, phenols, free amino acids and endogenous hormones in middle scales of Lilium davidii var.unicolor bulbs during the 101 days storage at 2, 6 and 10°C in moist sawdust were studied. The results indicated that asthe storage time increased and the storage temperature delined, contents of starch and abscisic acid (ABA) decreasedmarkedly, and the level of total soluble sugar, phenols, gibberellic acid (GA3) and indole acetic acid (IAA) increasedsharply. In the first 34 days, the contents of the above substances changed most actively. Correlation analysis revealedthat the increase in content of total soluble sugar and phenols was respectively caused by activation of amylase andphenylalanine ammonia-lyase (PAL). During the storage, the content of free amino acids decreased, and the level ofarginine was the highest and changed most remarkably. According to the results of stepwise regression analysis and pathanalysis, we could primarily conclude that the metabolism of carbohydrates, phenols and free amino acids in the middlescales may be mainly regulated by endogenous GA3.
基金Cornell Nepal Study Program for the partial financial supports to carry out field worksupported from the CGIAR research programs on'Forests,Trees and Agroforestry'(CRP6.2)the National Natural Science Foundation of China(31270524)
文摘Predicting the potential distribution of medicinal plants in response to climate change is essential for their conservation and management. Contributing to the management program, this study aimed to predict the distribution of two threatened medicinal plants, Fritillaria cirrhosa and Lilium nepalense. The location of focal species gathered from herbarium specimen housed in different herbaria and online databases were geo-referenced and checked for spatial autocorrelation. The predictive environmental variables were selected, and MaxEnt software was used to model the current and future distributions of focal species. Four Representative Concentration Pathway (RCP) trajectories of the BCC-CSMI.1 model were used as the future (2050) projection layer. The MaxEnt modelling delineated the potential distribution of F. cirrhosa and L. nepalense. The current suitability is projected towards Central and Eastern Hilly/Mountainous regions. Both species gain maximum suitability in RCP 4.5 which decline towards other trajectories for L. nepalense. Overall, both the focal species shift towards the north-west, losing their potential habitat in hilly and lower mountainous regions by 2050 across all trajectories. Our results highlight the impact of future climate change on two threatened and valuable species. The results can be further useful to initiate farming of these medicinally and economically important species based on climatically suitable zone and for designing a germplasm conservation strategy.
基金Supported by Program of Postdoctoral Funds Project of Heilongjiang Province (LBH-Z08259)Program for Innovative Research Team of Northeast Agricultural University (CXZ004)
文摘The effects of the microspore developmental stage,hormones and culture condition on anther in vitro culture of lily(Lilium spp.) were discussed.The results showed that when the flower buds were about 23-26 mm long,the microspores were at the uninucleate stage which was suitable for culture and the culture under the darkness would promote the callus induction of anther.The induction frequency could reach 42.5% in the optimized medium which was MS+[6-BA(0.5)+KT(2.0)+2,4-D(1.0)] mg·L-1.The rate of callus differentiation could reach 31.57% in the optimized medium which was MS+ NAA(1.5,2.0) mg·L-1.
