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中国科学院昆明植物研究所知识管理系统
Knowledge Management System of Kunming Institute of Botany,CAS
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6 could use lots of photosynthates, but contributed little to the accumulation of biomass. 4. Photosynthetic rate of P. armeniacum decreased a little at the noon, and the highest photosynthetic rate was observed at 10:00h in the greenhouse. The variation of photosynthetic rate was in the same trend as stomatal conductance. Higher relative humidity seemed to be the key for higher photosynthetic rate in P. armeniacum. 5. The photosynthetic capacity of C. flavum was statistically larger than that of P. armeniacum. The lower leaf photosynthetic capacity of P. armeniacum was related to its lower leaf nitrogen concentration,leaf phosphorus concentration and enzyme activities. Meanwhile, the extremely lower stomatal conductance and internal mesophyll conductance might greatly limit the photosynthetic capacity of P. armeniacum. The lower stomatal conductance and photosynthetic rate of Paphiopedilum might partially caused by the lack of chloroplasts in the guard cell of Paphiopedilum. Compared with C. flavum, P. armeniacum was more fond of shade environment.6. The short longevity leaf of Cypripedium had bigger photosynthetic capacity and greater potential for fast growth. But the longer LL of Paphiopedilum enhanced nutrient conservation which could compensate its lower photosynthetic capacity. The short longevity leaf of Cypripedium usually had higher photosynthetic rate per unit leaf mass and dark respiration rate, and photosynthetic capacity decreased fast with leaf age. However, for Paphiopedilum, the situation was the opposite. 7. Compared with Cypripedium, Paphiopedilum had higher water use efficiency and lower photosynthetic nitrogen use efficiency. 8. The leaf of Paphiopedilum had higher leaf construction cost and longer repayment time than that of Cypripedium. The leaf structures and physiological functions of Paphiopedilum and Cypripedium reflected the adaptation to their habitats. The leaf morphological and physiological evolution of Paphiopedilum was related to water and resource-conserving traits in the karst habitat. The leaf traits of Cypripedium were the adaptation to the environment rich in water and nutrients but easy to change with seasons.Our results provided evidence of divergent evolution of congeneric orchids under natural selection.","jscount":"1","jsurl":"/simple-search?field1=all&rpp=10&accurate=false&advanced=false&sort_by=2&isNonaffiliated=false&search_type=-1&query1=n%2BUptake%2BEfficiency&order=desc&&fq=dc.project.title_filter%3APaphiopedilum%5C+and%5C+Cypripedium%5C+are%5C+close%5C+relatives%5C+belonging%5C+to%5C+the%5C+subfamily%5C+Cypripedioideae.%5C+However%2C%5C+they%5C+undergo%5C+considerable%5C+divergence%5C+in%5C+the%5C+aspects%5C+of%5C+life%5C+forms%2C%5C+leaf%5C+traits%5C+and%5C+habitats.%5C+In%5C+present%5C+study%2C%5C+leaf%5C+morphologies%5C+and%5C+anatomical%5C+structures%2C%5C+leaf%5C+lifespans%2C%5C+leaf%5C+mass%5C+per%5C+area%2C%5C+photosynthetic%5C+capacities%2C%5C+nutrient%5C+use%5C+efficiencies%2C%5C+leaf%5C+construction%5C+costs%2C%5C+and%5C+maintenance%5C+costs%5C+were%5C+investigated%5C+to%5C+understand%5C+the%5C+relationship%5C+between%5C+leaf%5C+traits%5C+and%5C+ecophysiological%5C+adaptability%5C+of%5C+the%5C+two%5C+types%5C+of%5C+plants%5C+and%5C+explore%5C+the%5C+related%5C+ecological%5C+and%5C+evolutionary%5C+significances.%5C+The%5C+results%5C+suggest%5C+that%5C%3A1.%5C+Compared%5C+with%5C+Cypripedium%2C%5C+Paphiopedilum%5C+was%5C+characterized%5C+by%5C+drought%5C+tolerance%5C+from%5C+its%5C+leaf%5C+anatomical%5C+structure%5C+including%5C+fleshy%5C+leaf%2C%5C+thicker%5C+surface%5C+cuticle%2C%5C+huge%5C+abaxial%5C+epidermis%5C+cells%2C%5C+differentiation%5C+of%5C+palisade%5C+and%5C+spongy%5C+mesophyll%5C+layers%2C%5C+the%5C+prominent%5C+of%5C+mucilaginous%5C+substances%2C%5C+supportable%5C+leaf%5C+main%5C+vein%2C%5C+lower%5C+total%5C+stoma%5C+area%5C+%5C%28%25%5C%29%2C%5C+sunken%5C+stomata%5C+and%5C+special%5C+stoma%5C+structure.%5C+Leaf%5C+morphologies%5C+and%5C+structures%5C+of%5C+Cypripedium%5C+were%5C+to%5C+the%5C+contrary%5C+of%5C+Paphiopedilum.%5C+Leaf%5C+morphologies%5C+and%5C+structures%5C+embodied%5C+the%5C+adaptation%5C+to%5C+the%5C+environment%5C+in%5C+both%5C+Paphiopedilum%5C+and%5C+Cypripedium.%5C+Our%5C+results%5C+also%5C+confirmed%5C+the%5C+previous%5C+observation%5C+that%5C+Paphiopedilum%5C+was%5C+the%5C+only%5C+genus%5C+that%5C+did%5C+not%5C+possess%5C+guard%5C+cell%5C+chloroplasts.2.%5C+The%5C+photosynthetic%5C+capacities%5C+of%5C+P.%5C+armeniacum%5C+leaves%5C+were%5C+different%5C+with%5C+different%5C+leaf%5C+ages.%5C+The%5C+highest%5C+photosynthetic%5C+capacity%5C+occurred%5C+in%5C+leaf%5C+age%5C+1%5C-2%5C+years%2C%5C+followed%5C+by%5C+1%5C+year%5C+and%5C+2%5C-4%5C+years.%5C+The%5C+highest%5C+photosynthetic%5C+capacity%5C+of%5C+C.%5C+flavum%5C+occurred%5C+in%5C+leaf%5C+age%5C+60%5C+days%2C%5C+followed%5C+by%5C+30%5C+days%2C%5C+90%5C+days%5C+and%5C+120%5C+days.%5C+3.%5C+Photosynthetic%5C+capacities%5C+of%5C+different%5C+leaf%5C+positions%5C+were%5C+mainly%5C+affected%5C+by%5C+leaf%5C+ages%5C+in%5C+P.%5C+armeniacum.%5C+The%5C+four%5C+leaves%5C+lying%5C+on%5C+the%5C+top%5C+did%5C+the%5C+most%5C+accumulation%5C+of%5C+the%5C+assimilation%5C+products%5C+in%5C+the%5C+whole%5C+plant.%5C+The%5C+leaves%5C+of%5C+sequence%5C+number%5C+%3E%5C+6%5C+could%5C+use%5C+lots%5C+of%5C+photosynthates%2C%5C+but%5C+contributed%5C+little%5C+to%5C+the%5C+accumulation%5C+of%5C+biomass.%5C+4.%5C+Photosynthetic%5C+rate%5C+of%5C+P.%5C+armeniacum%5C+decreased%5C+a%5C+little%5C+at%5C+the%5C+noon%2C%5C+and%5C+the%5C+highest%5C+photosynthetic%5C+rate%5C+was%5C+observed%5C+at%5C+10%5C%3A00h%5C+in%5C+the%5C+greenhouse.%5C+The%5C+variation%5C+of%5C+photosynthetic%5C+rate%5C+was%5C+in%5C+the%5C+same%5C+trend%5C+as%5C+stomatal%5C+conductance.%5C+Higher%5C+relative%5C+humidity%5C+seemed%5C+to%5C+be%5C+the%5C+key%5C+for%5C+higher%5C+photosynthetic%5C+rate%5C+in%5C+P.%5C+armeniacum.%5C+5.%5C+The%5C+photosynthetic%5C+capacity%5C+of%5C+C.%5C+flavum%5C+was%5C+statistically%5C+larger%5C+than%5C+that%5C+of%5C+P.%5C+armeniacum.%5C+The%5C+lower%5C+leaf%5C+photosynthetic%5C+capacity%5C+of%5C+P.%5C+armeniacum%5C+was%5C+related%5C+to%5C+its%5C+lower%5C+leaf%5C+nitrogen%5C+concentration%2Cleaf%5C+phosphorus%5C+concentration%5C+and%5C+enzyme%5C+activities.%5C+Meanwhile%2C%5C+the%5C+extremely%5C+lower%5C+stomatal%5C+conductance%5C+and%5C+internal%5C+mesophyll%5C+conductance%5C+might%5C+greatly%5C+limit%5C+the%5C+photosynthetic%5C+capacity%5C+of%5C+P.%5C+armeniacum.%5C+The%5C+lower%5C+stomatal%5C+conductance%5C+and%5C+photosynthetic%5C+rate%5C+of%5C+Paphiopedilum%5C+might%5C+partially%5C+caused%5C+by%5C+the%5C+lack%5C+of%5C+chloroplasts%5C+in%5C+the%5C+guard%5C+cell%5C+of%5C+Paphiopedilum.%5C+Compared%5C+with%5C+C.%5C+flavum%2C%5C+P.%5C+armeniacum%5C+was%5C+more%5C+fond%5C+of%5C+shade%5C+environment.6.%5C+The%5C+short%5C+longevity%5C+leaf%5C+of%5C+Cypripedium%5C+had%5C+bigger%5C+photosynthetic%5C+capacity%5C+and%5C+greater%5C+potential%5C+for%5C+fast%5C+growth.%5C+But%5C+the%5C+longer%5C+LL%5C+of%5C+Paphiopedilum%5C+enhanced%5C+nutrient%5C+conservation%5C+which%5C+could%5C+compensate%5C+its%5C+lower%5C+photosynthetic%5C+capacity.%5C+The%5C+short%5C+longevity%5C+leaf%5C+of%5C+Cypripedium%5C+usually%5C+had%5C+higher%5C+photosynth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The compound BTB06584 is an IF1-dependent selective inhibitor of the mitochondrial F1Fo-ATPase1
期刊论文
出版物, 3111, 期号: 0, 页码: 1-38
作者:
Fabrice Ivanes
;
Danilo Faccenda
;
Jemma Gatliff
;
Ahmed A Ahmed
;
Stefania Cocco
;
Carol Ho Ka Cheng
;
Emma Allan
;
Claire Russell
;
Michael R Duchen
;
Michelangelo Campanella
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提交时间:2017/07/24
Mitochondrial F1fo Atp Synthase
If1
Ischemia-induced Death
Btb06584
Pinotage
The Forest Filter Effect vs. Cold Trapping Effect on the AltitudinalDistribution of PCBs: A Case Study of Mt. Gongga, Eastern Tibetan Plateau
期刊论文
出版物, 3111, 期号: 0, 页码: 1-32
作者:
Xin Liu
;
Jun Li
;
Qian Zheng
;
Haijian Bing
;
Ruijie Zhang
;
Yan Wang
;
Chunling Luo
;
Xiang Liu
;
Yanhong Wu
;
Suhong Pan
;
Gan Zhang
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提交时间:2017/07/24
Boron in plants: deficiency and toxicity
期刊论文
出版物, 3111, 期号: 0, 页码: 1—24
作者:
Juan J. Camacho-Cristóbal
;
Jesús Rexach
;
Agustín González-Fontes
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Combined transcriptomic, proteomic and biochemical approaches to identify the cadmium hyper-tolerance mechanism of turnip seedling leaves
期刊论文
ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH, 2021, 卷号: 28, 期号: 18, 页码: 22458-22473
作者:
Li,Xiong
;
Chen,Di
;
Li,Boqun
;
Yang,Ya
;
Yang,Yongping
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Turnip
Cadmium
Hyperaccumulator
Flavonoid
Acetylation
RNA-SEQ DATA
GENOME-WIDE IDENTIFICATION
GLUTATHIONE METABOLISM
SULFUR ASSIMILATION
GENE FAMILIES
STRESS
EFFLUX
ZINC
ACCUMULATION
PROTEIN
Characterization of defensive cadinenes and a novel sesquiterpene synthase responsible for their biosynthesis from the invasive Eupatorium adenophorum
期刊论文
NEW PHYTOLOGIST, 2021, 卷号: 229, 期号: 3, 页码: 1740-1754
作者:
Liu,Yan
;
Luo,Shi-Hong
;
Hua,Juan
;
Li,De-Sen
;
Ling,Yi
;
Luo,Qian
;
Li,Sheng-Hong
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提交时间:2022/04/02
cadinenes
defensive chemicals
Eupatorium adenophorum
sesquiterpenes
sesquiterpene synthase
NATURAL-PRODUCTS
FUNCTIONAL-CHARACTERIZATION
ABSOLUTE STEREOCHEMISTRY
TERPENE SYNTHASES
EXPRESSION
CLONING
EMISSION
LEAVES
GENES
9-OXO-10,11-DEHYDROAGERAPHORONE
Three new host records of endophytic Neofusicoccum species reported from Dendrobium orchids
期刊论文
PHYTOTAXA, 2021, 卷号: 494, 期号: 2, 页码: 193-207
作者:
Ma,Xiao-Ya
;
Hyde,Kevin D.
;
Phillips,Alan J. L.
;
Kang,Ji-Chuan
;
Chomnunti,Putarak
;
Doilom,Mingkwan
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浏览/下载:127/19
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Botryosphaeriaceae
endophytes
multi-genes
new host records
Orchidaceae
FUNGAL ENDOPHYTES
BOTRYOSPHAERIACEAE
DIVERSITY
DIEBACK
IDENTIFICATION
PHYLOGENY
POPULATIONS
AUSTRALIA
CULTURES
VICTORIA
Phylogeny and evolution of chloroplast tRNAs in Adoxaceae
期刊论文
ECOLOGY AND EVOLUTION, 2021, 卷号: 11, 期号: 3, 页码: 1294-1309
作者:
Zhong,Qiu-Yi
;
Fu,Xiao-Gang
;
Zhang,Ting-Ting
;
Zhou,Tong
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Yue,Ming
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Liu,Jian-Ni
;
Li,Zhong-Hu
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anticodon
chloroplast tRNA
intron
phylogeny
transition
transversion
NONOPTIMAL CODON USAGE
HORIZONTAL TRANSFER
GENE DUPLICATION
GENOME
MITOCHONDRIAL
ORIGIN
TRANSLATION
SEQUENCES
ACID
DNA
Fungal succession in decomposing woody debris across a tropical forest disturbance gradient
期刊论文
SOIL BIOLOGY & BIOCHEMISTRY, 2021, 卷号: 155, 页码: 108142
作者:
Dossa,Gbadamassi G. O.
;
Yang,Yun-Qiang
;
Hu,Weiming
;
Paudel,Ekananda
;
Schaefer,Douglas
;
Yang,Yong-Ping
;
Cao,Kun-Fang
;
Xu,Jian-Chu
;
Bushley,Kathryn E.
;
Harrison,Rhett D.
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提交时间:2022/04/02
Carbon cycle
Coarse woody debris
Decomposition
Fungi
Ecosystem function
Landscape
Tropical forest
Wood density
INHABITING FUNGI
DECAY
DIVERSITY
BARK
COMMUNITIES
TERMITES
The contribution of insects to global forest deadwood decomposition
期刊论文
NATURE, 2021, 卷号: 597, 期号: 7874, 页码: 77+
作者:
Seibold,Sebastian
;
Rammer,Werner
;
Hothorn,Torsten
;
Seidl,Rupert
;
Ulyshen,Michael D.
;
Lorz,Janina
;
Cadotte,Marc W.
;
Lindenmayer,David B.
;
Adhikari,Yagya P.
;
Aragon,Roxana
;
Bae,Soyeon
;
Baldrian,Petr
;
Varandi,Hassan Barimani
;
Barlow,Jos
;
Bassler,Claus
;
Beauchene,Jacques
;
Berenguer,Erika
;
Bergamin,Rodrigo S.
;
Birkemoe,Tone
;
Boros,Gergely
;
Brandl,Roland
;
Brustel,Herve
;
Burton,Philip J.
;
Cakpo-Tossou,Yvonne T.
;
Castro,Jorge
;
Cateau,Eugenie
;
Cobb,Tyler P.
;
Farwig,Nina
;
Fernandez,Romina D.
;
Firn,Jennifer
;
Gan,Kee Seng
;
Gonzalez,Grizelle
;
Gossner,Martin M.
;
Habel,Jan C.
;
Hebert,Christian
;
Heibl,Christoph
;
Heikkala,Osmo
;
Hemp,Andreas
;
Hemp,Claudia
;
Hjalten,Joakim
;
Hotes,Stefan
;
Kouki,Jari
;
Lachat,Thibault
;
Liu,Jie
;
Liu,Yu
;
Luo,Ya-Huang
;
Macandog,Damasa M.
;
Martina,Pablo E.
;
Mukul,Sharif A.
;
Nachin,Baatarbileg
;
Nisbet,Kurtis
;
O'Halloran,John
;
Oxbrough,Anne
;
Pandey,Jeev Nath
;
Pavlicek,Tomas
;
Pawson,Stephen M.
;
Rakotondranary,Jacques S.
;
Ramanamanjato,Jean-Baptiste
;
Rossi,Liana
;
Schmidl,Jurgen
;
Schulze,Mark
;
Seaton,Stephen
;
Stone,Marisa J.
;
Stork,Nigel E.
;
Suran,Byambagerel
;
Sverdrup-Thygeson,Anne
;
Thorn,Simon
;
Thyagarajan,Ganesh
;
Wardlaw,Timothy J.
;
Weisser,Wolfgang W.
;
Yoon,Sungsoo
;
Zhang,Naili
;
Mueller,Jorg
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提交时间:2022/04/02
COARSE WOODY DEBRIS
CARBON SINK
CLIMATE
TEMPERATURE
METAANALYSIS
TERRESTRIAL
SEASONALITY
GRASSLANDS
INCREASES
COMMUNITY
Effects of degraded grassland conversion to mango plantation on soil CO2 fluxes
期刊论文
APPLIED SOIL ECOLOGY, 2021, 卷号: 167, 页码: 104045
作者:
Wang,Zhenghong
;
Wubshet,Tewodros Tesfaye
;
Chen,Huafang
;
Wu,Liqing
;
Yang,Huizhao
;
Yang,Jianbo
;
Goldberg,Stefanie Daniela
;
Xu,Jianchu
;
Gui,Heng
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Fragile ecosystems
Agricultural and ecological transformation
Carbon emission
Land use
Enzyme activities
LAND-USE CHANGE
MICROBIAL COMMUNITY STRUCTURE
ENZYME-ACTIVITIES
BETA-GLUCOSIDASE
ORGANIC-CARBON
WATER CONTENT
RESPIRATION
BIOMASS
TEMPERATURE
NITROGEN
