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主要功能(neng)

WinRHIZO 是一套用(yong)于(yu)(yu)洗根(gen)(gen)后的(de)分(fen)析根(gen)(gen)系(xi)的(de)多(duo)功能(neng)軟件系(xi)統，可(ke)以(yi)分(fen)析根(gen)(gen)系(xi)長度、直徑、面積、體積、根(gen)(gen)尖(jian)記數(shu)等，功能(neng)強大，操作(zuo)簡單，廣(guang)泛運用(yong)于(yu)(yu)根(gen)(gen)系(xi)形態(tai)和構造研究。

儀(yi)器內置專門(men)的(de)雙光源照(zhao)明系(xi)統(tong)，有(you)效的(de)去(qu)除了陰影(ying)和不均勻現象的(de)影(ying)響，從而提(ti)供高分(fen)辨率的(de)彩色圖(tu)像和黑(hei)白圖(tu)像，讀取TIFF，JPEG 標準格式的(de)圖(tu)像。并采用非統(tong)計(ji)學方法測量(liang)計(ji)算出(chu)交(jiao)叉重(zhong)疊部分(fen)根(gen)系(xi)長(chang)度等參量(liang)，大大提(ti)高了分(fen)析(xi)結(jie)果的(de)準確性。同時，Pro版軟件(jian)還可以進行(xing)更加復雜的(de)根(gen)系(xi)顏色分(fen)析(xi)、連(lian)接分(fen)析(xi)、拓撲分(fen)析(xi)和分(fen)級伸展(zhan)分(fen)析(xi)。



測量參數(shu)

根系整(zheng)體參(can)數(shu)：總根長(chang)、平均直徑、總表(biao)面積(ji)、總投(tou)影(ying)面積(ji)、總體積(ji)、根尖數(shu)、分支(zhi)數(shu)和交叉數(shu)等。

根直(zhi)徑等級分布參數：根長、表(biao)面積(ji)、投影面積(ji)、體(ti)積(ji)、根尖(jian)數。

根系(xi)顏色分析參數：顏色類或群的根長、投影面積、表面積、平均(jun)直徑、體(ti)積、根尖計等。

根系連接分析參(can)數：用于根系分支角度、連通(tong)性等形態研究(jiu)

根(gen)系拓撲分析參數(shu)：連接(jie)數(shu)量、路徑長度(du)等研究（需要(yao)根(gen)系完整）

根(gen)系分級伸(shen)展分析參數：記錄根(gen)系整體(ti)等級分布情況（需要根(gen)系完整）

圖像中獨立(li)單個(ge)樣(yang)(yang)品(pin)分析：單個(ge)樣(yang)(yang)品(pin)分別的形態、連接、拓(tuo)撲、分級伸展分析。

應用領(ling)域

功能強(qiang)大，操作簡單，廣泛應(ying)用(yong)于植(zhi)物生理學(xue)(xue)(xue)、植(zhi)物生態(tai)學(xue)(xue)(xue)、植(zhi)物營養(yang)學(xue)(xue)(xue)、農學(xue)(xue)(xue)、園藝學(xue)(xue)(xue)、林學(xue)(xue)(xue)等領域的根系形態(tai)和構造研究。

主要技術(shu)參數(shu)

主要技術參數(shu)

專業版(ban)

專業版除具(ju)備以上基本參數，還具(ju)備如下功能特征：

·   根(gen)系顏色分析：根(gen)的長度、面(mian)積、體積、根(gen)尖計(ji)數、根(gen)系存活數量等(deng)研究

·   根系連(lian)(lian)接分(fen)析：用于根系分(fen)支角度、連(lian)(lian)通性等(deng)形態研究

·   根(gen)系拓撲分析(xi)：連接數量、路徑長度(du)等研究（需要根(gen)系完整）

·   根(gen)系(xi)分級伸展(zhan)分析：記錄(lu)根(gen)系(xi)整(zheng)體等級分布情況（需要根(gen)系(xi)完整(zheng)）

                                                              種子分類                                                                                                                        幼苗生長定量

                                           葉(xie)片(pian)顏色分析（病(bing)理）                                      根系(xi)形態分析                                                      菌(jun)根定量分析

擬(ni)南芥(jie)版

擬南芥版除具(ju)備專業版的所(suo)有功能(neng)外，還具(ju)備如下功能(neng)：

·   對未接觸到(dao)一起的(de)幼苗、根系或(huo)其他樣(yang)品，獨(du)立進行(xing)分(fen)區并(bing)分(fen)析(xi)(xi)；除了對圖(tu)像中的(de)總樣(yang)品進行(xing)統計(ji)分(fen)析(xi)(xi)外，對每個獨(du)立的(de)樣(yang)品亦可進行(xing)統計(ji)分(fen)析(xi)(xi)

·   可根據圖像類型(xing)，將樣(yang)品邊界框的長度(du)(du)(du)(du)和(he)寬度(du)(du)(du)(du)轉換成植物的高度(du)(du)(du)(du)和(he)寬度(du)(du)(du)(du)或葉(xie)片的長度(du)(du)(du)(du)和(he)寬度(du)(du)(du)(du)

·   對圖像中每個獨立的物體(ti)自動(dong)進(jin)行(xing)面積計(ji)算(suan)（如果不(bu)事先(xian)對圖像進(jin)行(xing)編(bian)輯，則重疊部(bu)分不(bu)計(ji)算(suan)，接觸(chu)到的物體(ti)算(suan)一個）

選購(gou)指南：

系(xi)統由以下兩(liang)部分組成：

圖像撲捉系統：經過廠家調試的(de)標準根系掃描設備，匹配專(zhuan)門的(de)光源，根系固定裝置等。

·   STD4800：掃(sao)描(miao)面積 22×30 cm，投影(ying)面積 20×25 cm，分辨率 4800 DPI，可分辨最(zui)小(xiao)粒子 0.005 mm

·   LA2400：超大掃描面(mian)積(ji)(ji) 31x44 cm，投影(ying)面(mian)積(ji)(ji) 31x42 cm，分辨率(lv) 2400 DPI，可分辨最小(xiao)粒(li)子 0.011 mm

根(gen)系分析軟件：基(ji)本(ben)版 /標準(zhun)版 /專業版/擬南芥版 WinRHIZO 分析軟件。

產地：加拿大 Regent

參考(kao)文獻

原(yuan)始數(shu)據來(lai)源：Google Scholar

Zhang N, Shi X, Guan Z, Zhao S, Zhang F, et al. (2016) Treatment with spermidine protects chrysanthemum seedlings against salinity stress damage. Plant Physiology and Biochemistry 105: 260-270.

Zhang A, Fan D, Li Z, Xiong G, Xie Z (2016) Enhanced photosynthetic capacity by perennials in the riparian zone of the Three Gorges Reservoir Area, China. Ecological Engineering 90: 6-11.

Yu Y, Loiskandl W, Kaul H-P, Himmelbauer M, Wei W, et al. (2016) Estimation of runoff mitigation by morphologically different cover crop root systems. Journal of Hydrology 538: 667-676.

Yamamoto T, Suzuki T, Suzuki K, Adachi S, Sun J, et al. (2016) Detection of QTL for exudation rate at ripening stage in rice and its contribution to hydraulic conductance. Plant Science 242: 270-277.

Xu C, Tao H, Tian B, Gao Y, Ren J, et al. (2016) Limited-irrigation improves water use efficiency and soil reservoir capacity through regulating root and canopy growth of winter wheat. Field Crops Research 196: 268-275.

Wu J, Geilfus C-M, Pitann B, Mühling K-H (2016) Silicon-enhanced oxalate exudation contributes to alleviation of cadmium toxicity in wheat. Environmental and Experimental Botany 131: 10-18.

Win KT, Oo AZ, Ookawa T, Kanekatsu M, Hirasawa T (2016) Changes in hydraulic conductance cause the difference in growth response to short-term salt stress between salt-tolerant and -sensitive black gram (Vigna mungo) varieties. Journal of Plant Physiology 193: 71-78.

Wen Z, Shen J, Blackwell M, Li H, Zhao B, et al. (2016) Combined Applications of Nitrogen and Phosphorus Fertilizers with Manure Increase Maize Yield and Nutrient Uptake via Stimulating Root Growth in a Long-Term Experiment. Pedosphere 26: 62-73.

Wei L, Liu J, Su J, Jing G, Zhao J, et al. (2016) Effect of clipping on soil respiration components in temperate grassland of Loess Plateau. European Journal of Soil Biology 75: 157-167.

Wang W-f, Zong Y-z, Zhang S-q (2016) Effects of short-term osmotic stress on leaf hydraulic conductivity and ZmPIPs mRNA accumulation in maize seedlings. Journal of Integrative Agriculture 15: 2497-2506.

Wang P, Diao F, Yin L, Huo C (2016) Absorptive roots trait plasticity explains the variation of root foraging strategies in Cunninghamia lanceolata. Environmental and Experimental Botany 129: 127-135.

Wang C-M, Xia Z-R, Wu G-Q, Yuan H-J, Wang X-R, et al. (2016) The coordinated regulation of Na+ and K+ in Hordeum brevisubulatum responding to time of salt stress. Plant Science 252: 358-366.

Vaculíková M, Vaculík M, Tandy S, Luxová M, Schulin R (2016) Alleviation of antimonate (SbV) toxicity in maize by silicon (Si). Environmental and Experimental Botany 128: 11-17.

Tripathi VK, Rajput TBS, Patel N (2016) Biometric properties and selected chemical concentration of cauliflower influenced by wastewater applied through surface and subsurface drip irrigation system. Journal of Cleaner Production 139: 396-406.

Tomè E, Ventura M, Folegot S, Zanotelli D, Montagnani L, et al. (2016) Mycorrhizal contribution to soil respiration in an apple orchard. Applied Soil Ecology 101: 165-173.

Tomar RS, Tiwari S, Vinod, Naik BK, Chand S, et al. (2016) Molecular and Morpho-Agronomical Characterization of Root Architecture at Seedling and Reproductive Stages for Drought Tolerance in Wheat. PLoS One 11: e0156528.

Thangthong N, Jogloy S, Pensuk V, Kesmala T, Vorasoot N (2016) Distribution patterns of peanut roots under different durations of early season drought stress. Field Crops Research 198: 40-49.

Terzaghi M, Di Iorio A, Montagnoli A, Baesso B, Scippa GS, et al. (2016) Forest canopy reduction stimulates xylem production and lowers carbon concentration in fine roots of European beech. Forest Ecology and Management 379: 81-90.

Tang B, Yin C, Wang Y, Sun Y, Liu Q (2016) Positive effects of night warming on physiology of coniferous trees in late growing season: Leaf and root. Acta Oecologica 73: 21-30.

Sun Y, Mu C, Chen Y, Kong X, Xu Y, et al. (2016) Comparative transcript profiling of maize inbreds in response to long-term phosphorus deficiency stress. Plant Physiology and Biochemistry 109: 467-481.

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.

Shtein I, Noy-Porat T, Eshel A (2016) Life cycle and reproductive botany of Scilla hyacinthoides, a Mediterranean geophyte. Scientia Horticulturae 201: 167-174.

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.

Shan G, Sun Y, Cheng Q, Wang Z, Zhou H, et al. (2016) Monitoring tomato root zone water content variation and partitioning evapotranspiration with a novel horizontally-oriented mobile dielectric sensor. Agricultural and Forest Meteorology 228–229: 85-94.

Saha S, Chakraborty D, Sehgal VK, Nain L, Pal M (2016) Long-term atmospheric CO2 enrichment impact on soil biophysical properties and root nodule biophysics in chickpea (Cicer arietinum L.). European Journal of Agronomy 75: 1-11.

Ryan MH, Kidd DR, Sandral GA, Yang Z, Lambers H, et al. (2016) High variation in the percentage of root length colonised by arbuscular mycorrhizal fungi among 139 lines representing the species subterranean clover (Trifolium subterraneum). Applied Soil Ecology 98: 221-232.

Ruiz-Yanetti S, Chirino E, Bellot J (2016) Daily whole-seedling transpiration determined by minilysimeters, allows the estimation of the water requirements of seedlings used for dryland afforestation. Journal of Arid Environments 124: 341-351.

Reyes-Cabrera J, Zotarelli L, Dukes MD, Rowland DL, Sargent SA (2016) Soil moisture distribution under drip irrigation and seepage for potato production. Agricultural Water Management 169: 183-192.

Rees F, Sterckeman T, Morel JL (2016) Root development of non-accumulating and hyperaccumulating plants in metal-contaminated soils amended with biochar. Chemosphere 142: 48-55.

Rankl S, Gunsé B, Sieper T, Schmid C, Poschenrieder C, et al. (2016) Microbial homoserine lactones (AHLs) are effectors of root morphological changes in barley. Plant Science 253: 130-140.

Ramamoorthy P, Lakshmanan K, Upadhyaya HD, Vadez V, Varshney RK (2016) Shoot traits and their relevance in terminal drought tolerance of chickpea (Cicer arietinum L.). Field Crops Research 197: 10-27.

Qiao Y, Fan J, Wang Q (2016) Effects of farmland shelterbelts on accumulation of soil nitrate in agro-ecosystems of an oasis in the Heihe River Basin, China. Agriculture, Ecosystems & Environment 235: 182-192.

Qiang-Sheng W, Ming-Qin C, Ying-Ning Z, Chu W, Xin-Hua H (2016) Mycorrhizal colonization represents functional equilibrium on root morphology and carbon distribution of trifoliate orange grown in a split-root system. Scientia Horticulturae 199: 95-102.