1,821 research outputs found
Carpinus dayongina K. W. Liu & Q. Z. Lin 1986
No full text6. Carpinus dayongina K.W.Liu & Q.Z.Lin Bulletin of Botanical Research, Harbin 6 (2): 143 (Liu & Lin 1986). – Type: China, Hunan, Dayong [now Zhangjiajie], Tianmen shan, 1100 m a.s.l., 28 Jul. 1985, K.W. Liu [Liu Ke-wang] 33359 (holo-: CSFI; iso-: PE). – Additional type material: ibid., 25 Aug. 1984, Y.T. Xiao [Xiao Yu-tan] 40700 (para-: not localized). – Note: the epithet is sometimes cited as “ dayongiana ” (Govaerts & Frodin 1998; WCSP 2016), but the authors consistently use “ dayongina ” (Liu & Lin 1986: 143, 145), and correctly so (Art. 60 Rec. 60 D, McNeill et al. 2012).Published as part of Holstein, Norbert & Weigend, Maximilian, 2017, No taxon left behind? - a critical taxonomic checklist of Carpinus and Ostrya (Coryloideae, Betulaceae), pp. 1-52 in European Journal of Taxonomy 375 on page 12, DOI: 10.5852/ejt.2017.375, http://zenodo.org/record/383854
I Mechanistic studies of arsenate sorption on lithium/aluminum layered double hydroxide intercalated by chloride.
No full textsj-docx-1-jdr-10.1177_00220345211050324 – Supplemental material for CXCL12/CXCR4 Mediates Orthodontic Root Resorption via Regulating the M1/M2 Ratio
No full textSupplemental material, sj-docx-1-jdr-10.1177_00220345211050324 for CXCL12/CXCR4 Mediates Orthodontic Root Resorption via Regulating the M1/M2 Ratio by X.Y. Fang, Y.X. Zhan, X.M. Zhou, L.N. Wu, J. Lin, Y.T. Yi, C.M. Jiang, J. Wang and J. Liu in Journal of Dental Research</p
(41(1):53-60)Comparisons on the Agronomic Characteristics, Tuber Yield and Quality of Mai-Men-Tung Lines (Ophiopogon spp.)
No full text本試驗利用五種麥門冬品系:57─Ml、57─M2、57─M3、57─M4及57─M5,自民國77年2月起利用分株法定植田間,至78年5月止,於本所進行5個不同生長時期之調查與比較,以探討麥門冬品系間之生長特性、產量及品質之差異。試驗結果如下:
於不同生長時期麥門冬品系間之株高、分蘗數、葉與花之性狀、及塊根之性狀與產量等互有差異,而以57─M4及57─M5二品系在株高、分蘗數、葉長及塊根產量等性狀之表現較為優異。
單株平均塊根乾重以57─M4最高,每公頃收量達9,900kg;57─M5次之,每公頃收量為3,700kg,皆顯著高於其他品系。此外,另參考塊根之礦物質、還原糖及澱粉等成分含量,初步證實57─M4與57─M5應為最具發展潛力之麥門冬品系。
Five lines of mai-men-tung, i. e., 57-Mi, 57-M2, 57-M3, 57-M4, and 57-M5 were compared for their agronomic characteristics and tuber differences to select a higher yield and quality line. Experiment was conducted from 1988 to 1989 at TART. Experimental results indicated that there were significant differences in performances of plant height, tiller number, leaf and flower characteristics and tuber yield measured at five growth durations among lines. Lines of 57-M4 and 57-M5 were superior in plant height, tiller number, and leaf length to other lines. Mean yield of dry tuber of 57-M4(9,900 kg/ha) was the highest, followed by 57-M5(3,700kg/ha). By comparing the measured agronomic characteristics, tuber yield and chemical compositions, it was suggested that 57-M4 and 57-M5 were the most promising lines of mai-men-tung for future research usage
Sorption of Arsenate on Lithium/Aluminum Layered Double Hydroxide Intercalated by Chloride: Kinetic and Mechanistic Studies
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A criterion for identifying Asian dust events based on Al concentration data collected from northern Taiwan between 2002 and early 2007
No full textContactless electroreflectance studies of the band filling effect in Ga1-xMnxAs
No full textContactless electroreflectance (CER) method was used to study the properties of Ga1xMnxAs samples with x ¼ 0:01420:068. From superconducting quantum interference device (SQUID) measurement, the ferromagnetic transition temperature was found to range from 50 to 100K for these samples. In the CER experiment, in addition to the features commonly observed for GaAs, above band gap feature could be observed at low temperature for some of the samples. The appearance of the above band gap feature is interpreted as due to the band filling effect of holes in the valence band of Ga1xMnxAs layer. The large amount of free holes raises the Fermi level of the Ga1-xMnxAs above the band edge of the valence band & increases the effective bandgap observed in the CER measurement. The Fermi level obtained from the measurement is around 30 meV which corresponds to a free hole concentration of around 3*10^19 cm3. The results indicate that the Fermi level of metallic Ga1xMnxAs resides in the valence band & is an ordinary metal
Highly efficient blue OLEDs using ter(9,9-diarylfluorene)s with ambipolar carrier transport properties
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