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Rainfall interception by sand-stabilizing shrubs related to crown structure 被引量:9
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作者 ZhiShan Zhang XinRong Li +3 位作者 XueJun Dong XiaoHong Jia MingZhu He huijuan tan 《Research in Cold and Arid Regions》 2009年第2期107-119,共13页
On the edge of the Tengger Desert in northern China,revegetation has changed the landscape from moving dunes to stabilized dunes covered by shrubs,which further modifies the pattern of rainfall redistribution.To study... On the edge of the Tengger Desert in northern China,revegetation has changed the landscape from moving dunes to stabilized dunes covered by shrubs,which further modifies the pattern of rainfall redistribution.To study rainfall interception loss by shrubs and its relationship to rainfall properties and crown structure,throughfalls passing through crowns of Artemisia ordosica Krash.and Caragana korshinskii Kom.were measured using nine PVC cups under the canopy of each of the two shrubs during 73 rain events over a three-year period,with total rainfall of 260.9 mm.Interception losses of gross rainfall by A.ordosica and C.korshinskii account for 15% and 27% of the total on a crown area basis,and 6% and 11% on a ground area basis,respectively.Individual throughfall(T) and interception(I) were significantly related to rainfall amount(Pg),duration(D),and intensity(R).Ratios of throughfall to rainfall(T/Pg) and interception to rainfall(I/Pg) were not only significantly related to Pg,D,and R,but also to shrub species,and interactions of species with crown volume(CV) and leaf area index(LAI).Under most rain events,interceptions by C.korshinskii with greater CV and LAI were significantly higher than those by A.ordosica,and more rainfall interception occurred at locations closer to the stems of the two shrubs.For C.korshinskii,I/Pg had a significant positive linear relation with CV and LAI,while T/Pg had a significant negative linear relation with them.CV has a greater influence on T/Pg and I/Pg than does LAI.Using a regression method,canopy water storage capacities are estimated to be 0.52 and 0.68 mm,and free throughfall coefficient to be 0.62 and 0.47 for A.ordosica and C.korshinskii,respectively. 展开更多
关键词 Artemisia ordosica Caragana korshinskii crown volume leaf area index Tengger Desert THROUGHFALL
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Physiological responses and adjustment mechanisms of the dominate species of natural vegetation of Eastern Tengger Desert 被引量:1
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作者 HaiYan Zhou huijuan tan +3 位作者 ZhiShan Zhang XiaoHong Jia HengWen Fan JianLi Yuan 《Research in Cold and Arid Regions》 2010年第5期455-463,共9页
Reaumuria soongorica and Salsola passerina have significant differences in ecophysiological characteristics, which change with the environmental variations. Although they live together for a long period of time, their... Reaumuria soongorica and Salsola passerina have significant differences in ecophysiological characteristics, which change with the environmental variations. Although they live together for a long period of time, their adaptive mechanisms to environmental stresses are very different. As two extreme xerophytes, Reaumuria soongorica and Salsola passerina differ significantly from other psammophytes in ecophysiological characteristics; they can survive in lower water potential, and can even grow in piedmont areas. Low water potential may be related to the existence of osmosis-regulating substance, such as praline, which can strengthen the capacity of water absorption. Compared to other psammophytes, Reaumuria soongorica and Salsola passerina have a higher degree of photo-inhibition under the same condition, and the photo-inhibition can lead to destruction of the photosynthetic pigment, nevertheless, this photo-inhibition can be repaired under suitable conditions in the morning and evening. 展开更多
关键词 gas exchange water potential osmosis regulating Reaumuria soongorica Salsola passerina
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DELLA Proteins Promote Anthocyanin Biosynthesis via Sequestering MYBL2 and JAZ Suppressors of the MYB/bHLH/WD40 Complex in Arabidopsis thaliana 被引量:50
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作者 Ye Xie huijuan tan +1 位作者 Zhaoxue Ma Jirong Huang 《Molecular Plant》 SCIE CAS CSCD 2016年第5期711-721,共11页
Anthocyanin accumulation is recognized as a visible biomarker of plants that have suffered from environmental stresses. However, the molecular mechanisms underlying stress-induced anthocyanin biosynthesis remain uncle... Anthocyanin accumulation is recognized as a visible biomarker of plants that have suffered from environmental stresses. However, the molecular mechanisms underlying stress-induced anthocyanin biosynthesis remain unclear. Expression of anthocyanin-specific genes is regulated by the conserved MBW complex, which is composed of the MYB, bHLH, and WD40 subunRs in higher plants. MBW activity is repressed by MYBL2 and the JAZ family proteins, which bind competitively to bHLH and MYB/bHLH, respectively. Here, we found that MYBL2 and JAZs mediate gibberellic acid-inhibRed anthocyanin biosynthesis in Arabidopsis. Competitive pull-down and dual-lucifarase assays showed that DELLA proteins directly sequester MYBL2 and JAZ repressors, leading to the release of bHLH/MYB subunits and subsequently to the formation of active MBW complex, which then activates the anthocyanin biosynthetic pathway. The JAZ-DELLA-MYBL2 module also plays an Important role in abiotic stress-induced anthocy- anin biosynthesis. Furthermore, we found that the DELLA protein RGA accumulates upon plant exposure to abiotic stresses. Altogether, our data reveal that DELLA-promoted anthocyanin biosynthesis is mediated at least in part by MYBL2 and JAZ regulatory proteins, providing new insights into the coordinated regulation of plant growth and defense through metabolic pathway regulation. 展开更多
关键词 DELLA MYBL2 JAZ anthocyanin biosynthesis abiotic stresses
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中国荒漠与沙地生物土壤结皮研究 被引量:57
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作者 李新荣 谭会娟 +4 位作者 回嵘 赵洋 黄磊 贾荣亮 宋光 《科学通报》 EI CAS CSCD 北大核心 2018年第23期2320-2334,共15页
生物土壤结皮广泛分布于干旱半干旱区,其盖度占该区域地表活体覆盖的40%以上,是联结荒漠地表生物与非生物成分的"生态系统工程师"和荒漠/沙地生态系统健康的重要标志,也是干旱区地球表面过程研究中生物学与地球科学交叉研究... 生物土壤结皮广泛分布于干旱半干旱区,其盖度占该区域地表活体覆盖的40%以上,是联结荒漠地表生物与非生物成分的"生态系统工程师"和荒漠/沙地生态系统健康的重要标志,也是干旱区地球表面过程研究中生物学与地球科学交叉研究的热点科学问题.21世纪初,相关研究绝大多数来自国外,且集中在热带荒漠、寒漠和欧洲草原,很少有来自中国和温性荒漠的报道.本文评述了2000年以来中国学者在这一研究领域开展的系列创新性研究,涉及生物土壤结皮组成、分布和演替,对环境胁迫及全球变化的生理生态学响应,与土壤生态、水文过程,与维管植物和土壤动物关系,对干扰响应和人工培养及在生态恢复实践中的应用等,介绍了中国学者对国际生物土壤结皮研究所做的贡献. 展开更多
关键词 荒漠生态系统 生物土壤结皮 土壤生态与水文过程 生态恢复
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A Crucial Role of GA-Regulated Flavonol Biosynthesis in Root Growth of Arabidopsis 被引量:12
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作者 huijuan tan Cong Man +3 位作者 Ye Xie Jijun Yan Jinfang Chu Jirong Huang 《Molecular Plant》 SCIE CAS CSCD 2019年第4期521-537,共17页
Flavonols have been demonstrated to play many important roles in plant growth, development, and communication with other organisms. Flavonol biosynthesis is spatiotemporally regulated by the subgroup 7 R2R3-MYB (SG7 M... Flavonols have been demonstrated to play many important roles in plant growth, development, and communication with other organisms. Flavonol biosynthesis is spatiotemporally regulated by the subgroup 7 R2R3-MYB (SG7 MYB) transcription factors including MYB11/MYB12/MYB111. However, whether SG7- MYB activity is subject to post-translational regulation remains unclear. Here, we show that gibberellic acid (GA) inhibits flavonol biosynthesis via DELLA proteins in Arabidopsis. Protein-protein interaction analyses revealed that DELLAs (RGA and GAI) interacted with SG7 MYBs (MYB12 and MYB111) both in vitro and in vivo, leading to enhanced affinity of MYB binding to the promoter regions of key genes for flavonol biosynthesis and thus increasing their transcriptional levels. We observed that the level of auxin in the root tip was negatively correlated with root flavonol content. Furthermore, genetic assays showed that loss-of-function mutations in MYB 12, which is predominantly expressed in roots, partially rescued the short-root phenotype of the GA-deficient mutant ga1-3 by increasing root meristem size and mature cell size. Consistent with these observations, exogenous application of the flavonol quercetin restored the root meristem size of myb12 ga1-3 to that of ga1-3. Taken together, our data elucidate a molecular mechanism by which GA promotes root growth by directly reducing flavonol biosynthesis. 展开更多
关键词 GIBBERELLIN FLAVONOL ROOT growth AUXIN stress
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Arogenate Dehydratase Isoforms Differentially Regulate Anthocyanin Biosynthesis in Arabidopsis thaliana 被引量:13
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作者 Qingbo Chen Cong Man +3 位作者 Danning Li huijuan tan Ye Xie Jirong Huang 《Molecular Plant》 SCIE CAS CSCD 2016年第12期1609-1619,共11页
Anthocyanins, a group of L-phenylalanine (Phe)-derived flavonoids, have been demonstrated to play impor- tant roles in plant stress resistance and interactions between plants and insects. Although the anthocyanin bi... Anthocyanins, a group of L-phenylalanine (Phe)-derived flavonoids, have been demonstrated to play impor- tant roles in plant stress resistance and interactions between plants and insects. Although the anthocyanin biosynthetic pathway and its regulatory mechanisms have been extensively studied, it remains unclear whether the level of Phe supply affects anthocyanin biosynthesis. Here, we investigated the roles of arogenate dehydratases (ADTs), the key enzymes that catalyze the conversion of arogenate into Phe, in sucrose-induced anthocyanin biosynthesis in Arabidopsis. Genetic analysis showed that all six ADT isoforms function redundantly in anthocyanin biosynthesis but have differential contributions. ADT2 contributes the most to anthocyanin accumulation, followed by ADT1 and ADT3, and ADT4-ADT6. We found that anthocyanin content is positively correlated with the levels of Phe and sucrose-induced ADT transcripts in seedlings. Consistently, addition of Phe to the medium could dramatically increase anthocyanin content in the wild-type plants and rescue the phenotype of the adtl adt3 double mutant regarding the anthocyanin accumulation. Moreover, transgenic plants overexpressing ADT4, which appears to be less sensitive to Phe than overexpression ofADT2, hyperaccumulate Phe and produce elevated level of antho- cyanins. Taken together, our results suggest that the level of Phe is an important regulatory factor for sus- taining anthocyanin biosynthesis. 展开更多
关键词 PHENYLALANINE metabolic flux ADT ANTHOCYANIN Arabidopsis
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南海东海岛近海固氮细菌多样性及对菜心的促生作用 被引量:3
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作者 陈家欣 谈慧娟 +5 位作者 林楠 谭诗琳 郑海彬 曾晓燕 袁红旭 卢冬梅 《微生物学报》 CAS CSCD 北大核心 2020年第2期359-370,共12页
海洋固氮细菌在自然界氮循环中发挥着重要作用,筛选和开发海洋固氮促生的菌种资源,对于生物菌肥的开发应用和农业生产具有重要意义。[目的]研究海洋固氮细菌的生物多样性及对陆地作物的促生作用,筛选优良的植物根际促生菌株。[方法]通... 海洋固氮细菌在自然界氮循环中发挥着重要作用,筛选和开发海洋固氮促生的菌种资源,对于生物菌肥的开发应用和农业生产具有重要意义。[目的]研究海洋固氮细菌的生物多样性及对陆地作物的促生作用,筛选优良的植物根际促生菌株。[方法]通过形态特征、生理生化试验和16S rRNA基因序列比对进行菌属鉴定;将解磷、解钾、产蛋白酶和纤维素酶等性能优良的菌株作为菜心盆栽试验的组合菌液,探究对菜心能否起促生作用。[结果]本研究从南海东海岛的海岛沉积物中筛选出18株固氮菌,分布在6个属9种,不动杆菌属4株,假交替单胞菌属1株,芽孢杆菌属8株,嗜冷杆菌属1株,海单胞菌属1株,交替单胞菌属3株。菜心幼苗经过组合菌剂的浇灌,在茎高、茎粗、最大叶宽和最大叶长4个指标均表明对菜心有显著的促生作用。其中,以芽孢杆菌属和不动杆菌属的菌株在菜心的生长过程中起关键的促进作用,对菜心的促生性能最佳。[结论]南海近海具有种类丰富多样的固氮细菌,以芽孢杆菌属和不动杆菌属的菌株促生作用最为显著,具有开发成微生物菌肥的潜力,为优良的海洋促生微生物菌种资源的定向利用及蔬菜的无公害生产提供重要依据。 展开更多
关键词 固氮细菌 南海近海 种群分布 促生作用
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An ubiquitin-like protein SDE2 negatively affects sucrose-induced anthocyanin biosynthesis in Arabidopsis
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作者 Ye Xie Yulei Zhao +2 位作者 huijuan tan Qin Chen Jirong Huang 《Science Bulletin》 SCIE EI CAS CSCD 2017年第23期1585-1592,共8页
Anthocyanin biosynthesis is regulated by a conserved transcriptional MBW complex composed of MYB,b HLH and WD40 subunits. However, molecular mechanisms underlying transcriptional regulation of these MBW subunits remai... Anthocyanin biosynthesis is regulated by a conserved transcriptional MBW complex composed of MYB,b HLH and WD40 subunits. However, molecular mechanisms underlying transcriptional regulation of these MBW subunits remain largely elusive. In this study, we isolated an Arabidopsis mutant that displays a constitutive red color in aboveground tissues with retarded growth phenotypes. In the presence of sucrose, the mutant accumulates more than 3-fold anthocyanins of the wild type(WT), but cannot produce anthocyanins as WT in the absence of sucrose. Map-based cloning results demonstrated that the mutation occurs in the locus At4 G01000, which encodes a conserved nuclear-localized ubiquitin-like(UBL) superfamily protein, silencing defective 2(SDE2), in eukaryotes. SDE2 is ubiquitously expressed in various tissues. In the sucrose-induced anthocyanin biosynthesis, SDE2 expression was not responded to sucrose treatment at the early stage but was enhanced at the late stage. SDE2 mutations result in upregulation of anthocyanin biosynthetic and regulatory genes. Yeast-two hybrid analysis indicated that SDE2 has no direct interaction with the MYB transcription factor PAP1 and b HLH factor TT8, indicating that SDE2 is a indirect factor to affect anthocyanin accumulation. Taking together, our data suggest that SDE2 may play a role in finely coordinating anthocyanin biosynthesis with other biological processes. 展开更多
关键词 Anthocyanin biosynthesis SUCROSE SDE2 PAP1 ARABIDOPSIS
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