主要功能
采用開放式架構(gòu)體系,自由組合為田間便攜式、實驗室型等掃描、攝像方式的個性面積測量儀器,獲取葉片圖形并精確分析計算葉片面積及其相關(guān)參數(shù),廣泛運用于農(nóng)藝和林學等形態(tài)學、病理學研究。
運用各種圖形撲捉設備獲取高質(zhì)量葉片圖形,運用專業(yè)軟件分析計算葉片面積等相關(guān)參數(shù),該軟件可以讀取其他TIFF標準圖形,還可以額外配置XLFolia軟件協(xié)助數(shù)據(jù)處理。
測量參數(shù)
葉子測量參數(shù):葉面積(單個和總的),葉子穿孔面積(單個和總的),葉子長度,葉周長,葉最大寬度、平均寬度,縱橫比,形狀因子。
葉片測量參數(shù):葉片面積(單個和總的),葉片和葉柄長度,葉片最大寬度、平均寬度,葉片周長、自定義葉片寬度,自定義長度和角度,自定義裂片角度。
其他測量參數(shù):分析區(qū)域面積,葉片鋸齒高度、寬度、數(shù)量,包膜,不規(guī)則葉片形態(tài)分,病理分析(顏色分析)。
應用領(lǐng)域
廣泛應用于植物生理學、植物病理學、植物生態(tài)學、農(nóng)學、園藝、林學等學科,可進行形態(tài)學、病理學研究。
主要技術(shù)參數(shù)
選購指南:
系統(tǒng)由以下兩部分組成:
圖像撲捉系統(tǒng):經(jīng)廠家調(diào)試的臺式掃描儀或便攜式掃描儀(筆記本電腦供電)。
· LC4800P:掃描面積 22×30 cm,分辨率 4800 DPI,可分辨最小粒子 0.005 mm,便攜式。
· STD4800:掃描面積 22×30 cm,投影面積 20×25 cm,分辨率 4800 DPI,可分辨最小粒子 0.005 mm。
· LA2400:超大掃描面積 31x44 cm,投影面積 31x42 cm,分辨率 2400 DPI,可分辨最小粒子 0.011 mm 。
闊葉圖像分析軟件:基本版/標準版/專業(yè)版 WinFOLIA 分析軟件。
產(chǎn)地:加拿大 Regent
參考文獻
原始數(shù)據(jù)來源:Google Scholar
Xu T, Su C, Hu D, Li F, Lu Q, et al. (2016) Molecular distribution and toxicity assessment of praseodymium by Spirodela polyrrhiza. Journal of Hazardous Materials 312: 132-140.
Sonnemann I, Buchholz Y, Rautenberg D, Wurst S (2016) Land use intensity modulates the impact of root herbivores on plant interactions with above- and below-ground organisms. Agriculture, Ecosystems & Environment 219: 26-31.
Shi Y, Zhou G, Jiang Y, Wang H, Xu Z (2016) Does precipitation mediate the effects of elevated CO2 on plant growth in the grass species Stipa grandis? Environmental and Experimental Botany 131: 146-154.
Sekulska-Nalewajko J, Goc?awski J, Chojak-Ko?niewska J, Ku?niak E (2016) Automated image analysis for quantification of reactive oxygen species in plant leaves. Methods 109: 114-122.
Otgonsuren B, Rewald B, Godbold DL, G?ransson H (2016) Ectomycorrhizal inoculation of Populus nigra modifies the response of absorptive root respiration and root surface enzyme activity to salinity stress. Flora - Morphology, Distribution, Functional Ecology of Plants 224: 123-129.
Meier IC, Leuschner C, Marini E, Fender A-C (2016) Species-specific effects of temperate trees on greenhouse gas exchange of forest soil are diminished by drought. Soil Biology and Biochemistry 95: 122-134.
Ma L, Zheng G, Eitel JUH, Magney TS, Moskal LM (2016) Determining woody-to-total area ratio using terrestrial laser scanning (TLS). Agricultural and Forest Meteorology 228–229: 217-228.
Liu L, Lin H-F, Dong B-C (2016) Clonal integration enhances expansion ability of Ipomoea aquatica in aquatic–terrestrial ecotones. Aquatic Botany 128: 33-40.
Kon?pka B, Pajtík J, Maru?ák R, Bo?e?a M, Lukac M (2016) Specific leaf area and leaf area index in developing stands of Fagus sylvatica L. and Picea abies Karst. Forest Ecology and Management 364: 52-59.
Jagodziński AM, Dyderski MK, Rawlik K, K?tna B (2016) Seasonal variability of biomass, total leaf area and specific leaf area of forest understory herbs reflects their life strategies. Forest Ecology and Management 374: 71-81.
Guo X, Petermann JS, Schittko C, Wurst S (2016) Root-knot nematodes (Meloidogyne hapla) can modify the positive plant intraspecific diversity-productivity effect on red clover in clover-grass communities. Applied Soil Ecology 102: 26-35.
García-Guzmán G, Trejo I, Sánchez-Coronado ME (2016) Foliar diseases in a seasonal tropical dry forest: Impacts of habitat fragmentation. Forest Ecology and Management 369: 126-134.
Zhang S, Zhang Y, Ma K (2015) Mixed effects of ant–aphid mutualism on plants across different spatial scales. Basic and Applied Ecology 16: 452-459.
Tanis SR, McCullough DG, Cregg BM (2015) Effects of paclobutrazol and fertilizer on the physiology, growth and biomass allocation of three Fraxinus species. Urban Forestry & Urban Greening 14: 590-598.
Jing J, Raaijmakers C, Kostenko O, Kos M, Mulder PPJ, et al. (2015) Interactive effects of above- and belowground herbivory and plant competition on plant growth and defence. Basic and Applied Ecology 16: 500-509.
Graiff A, Liesner D, Karsten U, Bartsch I (2015) Temperature tolerance of western Baltic Sea Fucus vesiculosus – growth, photosynthesis and survival. Journal of Experimental Marine Biology and Ecology 471: 8-16.
Glover R, Drenovsky RE, Futrell CJ, Grewell BJ (2015) Clonal integration in Ludwigia hexapetala under different light regimes. Aquatic Botany 122: 40-46.
Forey E, Trap J, Aubert M (2015) Liming impacts Fagus sylvatica leaf traits and litter decomposition 25 years after amendment. Forest Ecology and Management 353: 67-76.
Caballero R, Schuster DJ, Smith HA, Mangandi J, Portillo HE (2015) A systemic bioassay to determine susceptibility of the pepper weevil, Anthonomus eugenii Cano (Coleoptera: Curculionidae) to cyantraniliprole and thiamethoxam. Crop Protection 72: 16-21.
Araujo Cal?ada E, Closset-Kopp D, Lenoir J, Hermy M, Decocq G (2015) Site productivity overrides competition in explaining the disturbance–diversity relationship in riparian forests. Perspectives in Plant Ecology, Evolution and Systematics 17: 434-443.
Calvete-Sogo H, González-Fernández I, García-Gómez H, Alonso R, Elvira S, et al. Developing ozone critical levels for multi-species canopies of Mediterranean annual pastures. Environmental Pollution.