参考文献:
[1]毛树春,韩迎春,王国平.棉花基质育苗和裸苗移栽存在问题及克服办法[J].中国棉花,2007,34(3):32-34.
[2]李向前,杜永华.大棚黄瓜缓苗期死苗原因及应对措施[J].河北农业,2014(2):32-33.
[3]SCHIMEL J P,JACHSON L E,FIRESTONE M K.Spatial and temporal effects on plantmicrobial competition for inorganic nitrogen in a california annual grassland[J].Soil Biology & Biochemistry,1989(21):1059-1066.
[4]SMITH T,HUSTON M.A theory of the spatial and temporal dynamics of plant communities [J].Plant Ecology,1989,83(1/2):49-69.
[5]SANCHEZ D H,SCHWABE F,ERBAN A,et al.Comparative metabolomics of drought acclimation in model and forage legumes [J].Plant Cell & Environment,2012,35(1):136-149.
[6]KUSANO M,TOHGE T,FUKUSHIMA A,et al.Metabolomics reveals comprehensive reprogramming involving two independent metabolic responses of Arabidopsisto UVB light[J].Plant Journal,2011,67(2):354-369.
[7]HANHINEVA K,ROGACHEV I,KOKKO H,et al.Nontargeted analysis of spatial metabolite composition in strawberry(Fragaria×ananassa) flowers[J].Phytochemistry,2008,69(13):2463-2481.
[8]CHARLTON A,ALLNUTT T,HOLMES S,et al.NMR profiling of transgenic peas[J].Plant Biotechnol,2004,2:27-35.
[9]FLAMINI R,ROSSO M D,MARCHI F D,et al.An innovative approach to grape metabolomics:Stilbene profiling by suspect screening analysis[J].Metabolomics,2013,9:1243-1253.
[10]GHOLAMI M,BOUGHTON B A,FAKHARI A R,et al.Metabolomic study reveals a selective accumulation of larginine in the dornithine treated tobacco cell suspension culture[J].Process Biochemistry,2014,49:140147.
[11]ROLDAN M,ENGEL B,DEVOS R H,et al.Metabolomics reveals organspecific metabolic rearrangements during early tomato seedling development[J].Metabolomics,2014,10:958-974.
[12]SOBOLEV A P,BROSIO E,GIANFERRI R,et al.Metabolic profile of lettuce leaves by highfield NMR spectra[J].Magnetic Reso Chem,2005,43:625-638.
[13]HARBORNE J B.Herbivores their interactions with secondary plant metabolites [J].Flavonoid Pigments,1991,11:389-429.
[14]IWASHIVA T.Flavonoid function and activity to plants and other organisms[J].Biological Sciences in Space,2003,17(1):24-44.
[15]KOSE R E,QUATTROCCHIO F,MOLJ N M.The flavonoid biosynthetic pathway in plants:Function and evolution[J].Bioessays,1994,16(2):123-132.
[16]KAY C D,HOOPER L,KROON P A,et al.Relative impact of flavonoid composition,dose and structure on vascular function:A systematic review of randomised controlled trials of flavonoidrich food products[J].Molecular Nutrition & Food Research,2012,56(11):1605-1616.
[17]AGATI G,STEFANO G,BIRICOLTI S,et al.Mesophyll distribution of ‘antioxidant’ flavonoid glycosides in Ligustrum vulgare leaves under contrasting sunlight irradiance[J].Annals of Botany,2009,104(5):853-861.
[18]ISLAM M N,DOWNEY F,NGC K Y.Comparative analysis of bioactive phytochemicals from Scutellaria baicalensis,Scutellaria lateriflora,Scutellaria racemosa,Scutellaria tomentosa and Scutellaria wrightii by LCDADMS [J].Metabolomics,2011,7(7):446-453.
[19]CHONG W P K,LIN T G,REDDY S G,et al.Metabolomics profiling of extracellular metabolites in recombinant Chinese Hamster Ovary fedbatch culture [J].Rapid Communications in Mass Spectrometry,2009,23(23):3763-3771.
[20]LOGEMANN E,SCHULZ W,SOMSSICH I E,et al.UV light selectively coinduces supply pathways from primary metabolism and flavonoid secondary product formation in parsley[J].Proceedings of the National Academy of Sciences of the United States of America,2000,97(4):1903-1907.
[21]岳跃冲,范燕萍.植物萜类合成酶及其代谢调控的研究进展[J].园艺学报,2011,38(2):379-388.
[22]ROUPHAEL Y,COLLA G,BERNARDO L,et al.Zinc excess triggered polyamines accumulation in lettuce root metabolome,as compared to osmotic stress under high salinity[J].Front Plant Sci,2016,7:842.
[23]ZHAO L,HUANG Y,HU J,et al.(1)H NMR and GCMS based metabolomics reveal defense and detoxification mechanism of cucumber plant under nano Cu stress[J].Environ Sci Technol,2016,50(4):2000-2010.
[24]WANG Y,XU L,SHEN H,et al.Metabolomic analysis with GCMS to reveal potential metabolites and biological pathways involved in Pb & Cd stress response of radish roots[J].Sci Rep,2015,5:18296.
[25]PIDATALA V R,LI K,SARKAR D,et al.Comparative metabolic profiling of vetiver(Chrysopogon zizanioides) and maize(Zea mays) under lead stress[J].Chemosphere,2018,193:903-911.
[26]TIESSEN A,HENDRIKS J H,STITT M,et al.Starch synthesis in potato tubers is regulated by posttranslational redox modification of ADPGlucose pyrophosphorylase a novel regulatory mechanism linking starch synthesis to the sucrose supply [J].The Plant Cell,2002,14(9):2191-2213. |