播期对糜子农艺性状及淀粉理化性质的影响

doi:10.3864/j.issn.0578-1752.2019.22.019

Abstract

Abstract:

【Objective】 The purpose of this study was to analyze the effects of different sowing date on proso millet (Panicum miliaceum L.) agronomic traits and grain starch physiochemical properties, provide theoretical basis for the subsequent study of the mechanism of sowing date on proso millet.【Method】The experiment was carried out in a pot, and Shaanmei No. 1 was used as the test material. Four kinds of sowing dates were set on April 20 (B1), May 10 (B2), May 30 (B3), and June 20 (B4). Different sowing dates, the soil moisture was sufficient during the whole growth period. In 2017, the morphological indexes, grain shape and grain physicochemical properties of the seeds of the proso millet were studied. The plant height, ear length, ear stem length, number of ear branches, 1 000-grain weight, the seeds length, width and roundness of proso millet were analyzed under different sowing dates. In the meantime, the crystal structure, particle size distribution, amylose content, and the enthalpy and gelatinization properties of starch were studied. The correlation of amylose content, enthalpy characteristics and gelatinization properties of starch with morphological index, particle size distribution and particle size parameters were analyzed. 【Result】 The results showed that with the delay of sowing date, the plant height, ear length and ear stem length of proso millet were significantly increased, the main stem tillers and branches were significantly decreased, and the number of secondary spike branches and grain width were significantly decreased. The size distribution of grain starch granules showed a bimodal distribution, and compared with other sowing dates, the particles proportion of B1 had the highest > 28 μm (25.5%) and the lowest 5-28 μm (67.5%) starch granule. The X-ray diffraction pattern showed that changing the sowing date couldn’t affect the crystal type of the proso millet starch, but affected the diffraction peak intensity of the X-ray diffraction pattern. The amylose content (1.3%) of B1 was significantly higher than that in the other sowing dates (0.18%-0.53%). Among the indicators related to the enthalpy characteristics of grain starch in different sowing dates, the gelatinization onset temperature (To), peak temperature (Tp) and conclusion temperature (Tc) showed a tendency of increasing first and then decreasing, while the thermal enthalpy (ΔH) had no significant difference. There were significant differences in the gelatinization properties of proso millet starch under different sowing dates. The peak viscosity (Pv), through viscosity (Tv), final viscosity (Fv) and breakdown (BD) of B3 were significantly higher than the others, while the setback (SB) and peak temperature (PT) were significantly lower than other treatments. With the delay of sowing date, the Pv and BD of proso millet starch increased first and then decreased. B1 starch had the strongest hot paste stability, B3 starch had the strongest cold paste stability and the worst hot paste stability. The cold paste stability of B2 starch was the worst, while the cold paste and hot paste stability of B4 were at an intermediate level. 【Conclusion】 Appropriate sowing date could provide sufficient light and temperature conditions to provide a better environment for the growth of proso millet. Early sowing date significantly increased the 1 000-grain weight of proso millet kernels, the grain was fuller, and the average grain size of grain starch increased, with higher amylose content and nutritional value, which was more suitable for processing hot foods. The sowing date didn’t affect the crystal type of starch, but affected the intensity of the X-ray diffraction peak, the gelatinization characteristics and other indicators of the starch.

Key words: sowing date, Panicum miliaceum L., starch, gelatinization characteristics, crystal structure

LUO Yan, QU Yang, YANG QingHua, ZHANG WeiLi, GONG XiangWei, LI Jing, GAO XiaoLi, GAO JinFeng, YANG Pu, WANG PengKe, FENG BaiLi. Effect of Sowing Date on Agronomic Traits and Starch Physicochemical Properties of Proso Millet[J].Scientia Agricultura Sinica, 2019, 52(22): 4154-4165.

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References 41

[1]	柴岩 . 糜子(黄米)的营养和生产概况. 粮食加工, 2009,34(4):90-91.
	CHAI Y . Overview of nutrition and production of proso millet (yellow rice). Grain Processing, 2009,34(4):90-91. (in Chinese)
[2]	SALEH A S M, ZHANG O, CHEN J, SHEN Q . Millet grains: nutritional quality, processing, and potential health benefits. Comprehensive Reviews in Food Science and Food Safety, 2013,12(3):281-295.
[3]	MILLER N F, SPENGLER R N, FRACHETTI M . Millet cultivation across Eurasia: Origins, spread, and the influence of seasonal climate. Holocene, 2016,26(10):1566-1575.
[4]	晁桂梅, 周瑜, 高金锋, 屈洋, 王颖, 冯佰利 . 粳性和糯性糜子淀粉的理化性质. 中国粮油学报, 2016,31(11):13-19.
	CHAO G M, ZHOU Y, GAO J F, QU Y, WANG Y, FENG B L . Physicochemical properties of starch from non-waxy proso millet and waxy proso millet. Journal of Chinese Cereals and Oils, 2016,31(11):13-19. (in Chinese)
[5]	屈会娟 . 播期播量对冬小麦群体质量和籽粒产量与品质的影响[D]. 郑州: 河南农业大学, 2007.
	QU H J . Effects of sowing date on the quality of winter wheat and grain yield and quality[D]. Zhengzhou: Henan Agricultural University, 2007. (in Chinese)
[6]	杨欢, 施燕凌, 陆大雷, 陆卫平 . 播期对夏播糯玉米淀粉理化特性的影响. 核农学报, 2016,30(9):1754-1762.
	YANG H, SHI Y L, LU D L, LU W P . Effects of sowing date on physical and chemical properties of summer-sowed corn starch. Journal of Nuclear Agriculture, 2016,30(9):1754-1762. (in Chinese)
[7]	闫发宝 . 糯玉米淀粉理化特性对灌浆结实期高温胁迫的响应[D]. 扬州: 扬州大学, 2013.
	YAN F B . Response of physicochemical properties of waxy corn starch to high temperature stress during grain filling stage[D]. Yangzhou: Yangzhou University, 2013. (in Chinese)
[8]	陆大雷 . 糯玉米淀粉理化特性基因型差异及其调控效应研究[D]. 扬州:扬州大学, 2009.
	LU D L . Study on genotype differences and regulation effects of physicochemical properties of waxy corn starch[D]. Yangzhou: Yangzhou University, 2009. (in Chinese)
[9]	赵庆勇, 朱镇, 张亚东, 陈涛, 姚姝, 周丽慧, 于新, 赵凌, 王才林 . 播期和地点对不同生态类型粳稻稻米品质性状的影响. 中国水稻科学, 2013,27(3):297-304.
	ZHAO Q Y, ZHU Z, ZHANG Y D, CHEN T, YAO S, ZHOU L H, YU X, ZHAO L, WANG C L . Effects of sowing date and location on rice quality traits of different ecological types of japonica rice . China Rice Science, 2013,27(3):297-304. (in Chinese)
[10]	张国伟, 张祥, 陈德华, 周治国 . 播期对内蒙古西部荒漠区棉花产量、品质及养分吸收利用的影响. 应用生态学报, 2017,28(3):863-870.
	ZHANG G W, ZHANG X, CHEN D H, ZHOU Z G . Effects of sowing date on cotton yield, quality and nutrient uptake and utilization in desert areas of western Inner Mongolia. Chinese Journal of Applied Ecology, 2017,28(3):863-870. (in Chinese)
[11]	吴永成, 徐亚丽, 彭海浪, 李壮, 牛应泽 . 播期及种植密度对直播油菜农艺性状和产量品质的影响. 西南农业学报, 2015,28(2):534-538.
	WU Y C, XU Y L, PENG H L, LI Z, NIU Y Z . Effects of sowing date and planting density on agronomic traits and yield and quality of direct seeding rape. Southwest Journal of Agricultural Sciences, 2015,28(2):534-538. (in Chinese)
[12]	王炎, 周良, 李振宙, 李振东, 吴兴慧, 黄小燕, 陈庆富, 黄凯丰 . 不同播期对苦荞生长发育及产量和品质的影响. 分子植物育种, 2019,17(10):3456-3460.
	WANG Y, ZHOU L, LI Z Z, LI Z D, WU X H, HUANG X Y, CHEN Q F, HUANG K F . Effects of different sowing dates on growth, development, yield and quality of tartary buckwheat. Molecular Plant Breeding, 2019,17(10):3456-3460. (in Chinese)
[13]	陆大雷, 郭换粉, 陆卫平 . 播期、品种和拔节期追氮量对糯玉米淀粉粒分布的影响. 中国农业科学, 2011,44(2):263-270.
	LU D L, GUO H F, LU W P . Effects of sowing date, variety and nitrogen application rate on the distribution of starch granules in waxy corn. China Agricultural Sciences, 2011,44(2):263-270. (in Chinese)
[14]	景小兰, 李志华, 董旭 . 不同播期对糜子不同品种生长发育及产量的影响. 作物杂志, 2019(1):146-151.
	JING X L, LI Z H, DONG X . Effects of different sowing dates on growth, development and yield of different varieties of proso millet. Crop Journal, 2019(1):146-151. (in Chinese)
[15]	杨文耀, 刘建设, 门果桃, 任永峰, 刘锦川 . 不同播期、播量和N、P施肥水平对糜子产量、品质的影响. 内蒙古农业科技, 2013(4):44-46. (in Chinese)
	YANG W Y, LIU J S, MEN G T, REN Y F, LIU J C . Effects of different sowing date, sowing rate and N and P fertilization levels on yield and quality of proso millet. Inner Mongolia Agricultural Science and Technology, 2013(4):44-46. (in Chinese)
[16]	晁桂梅 . 品种及栽培环境对糜子淀粉理化性质影响研究[D]. 杨凌: 西北农林科技大学, 2016.
	CHAO G M . Effects of variety and cultivation environment on the physical and chemical properties of proso millet starch[D]. Yangling: Northwest A&F University, 2016. (in Chinese)
[17]	冯娇娇 . 流式细胞术在植物上的应用[D]. 杨凌: 西北农林科技大学, 2017.
	FENG J J . Application of flow cytometry on plants[D]. Yangling: Northwest A&F University, 2017. (in Chinese)
[18]	周萍萍, 赵军, 颜红海, 兰秀锦, 彭远英 . 播期、播种量与施肥量对裸燕麦籽粒产量及农艺性状的影响. 草业科学, 2015,32(03):433-441.
	ZHOU P P, ZHAO J, YAN H H, LAN X J, PENG Y Y . Effects of sowing date, sowing amount and fertilization amount on grain yield and agronomic traits of bare oats. Grass science, 2015,32(03):433-441. (in Chinese)
[19]	孙国伟, 付连舜, 张凤路, 张瑞朋, 朱海荣 . 播期及密度对不同大豆品种农艺性状及产量的影响. 大豆科学, 2016,35(03):423-427.
	SUN G W, FU L S, ZHANG F L, ZHANG R P, ZHU H R . Effects of sowing date and density on agronomic traits and yield of different soybean varieties. Soybean science, 2016, 35(03):423-427. (in Chinese)
[20]	范名宇, 王晓菁, 王旭虹, 唐亮, 徐铨, 徐正进 . 稻米支链淀粉结构的研究进展. 中国水稻科学, 2017,31(2):124-132.
	FAN M Y, WANG X J, WANG X H, TANG L, XU Y, XU Z J . Advances in the study of amylopectin structure in rice. China Rice Science, 2017,31(2):124-132. (in Chinese)
[21]	张燕鹏, 庄坤, 丁文平, 曹杨 . 豌豆淀粉与马铃薯淀粉、玉米淀粉理化性质比较. 食品工业科技, 2016,37(4):183-186.
	ZHANG Y P, ZHUANG K, DING W P, CAO Y . Comparison of physicochemical properties of pea starch with potato starch and corn starch. Food Industry Technology, 2016,37(4):183-186. (in Chinese)
[22]	王颖, 晁桂梅, 杨秋歌, 高金锋, 高小丽, 王鹏科, 冯佰利 . 粳性糜子淀粉与小米淀粉理化性质的比较. 福建农林大学学报(自然科学版), 2014,43(5):523-529.
	WANG Y, CHAO G M, YANG Q G, GAO J F, GAO X L, WANG P K, FENG B L . Comparison of physicochemical properties of alfalfa proso millet starch and millet starch. Journal of Fujian Agriculture and Forestry University (Natural Science Edition), 2014,43(5):523-529. (in Chinese)
[23]	高金锋, 刘瑞, 晁桂梅, 王鹏科, 高小丽, 冯佰利 . 荞麦、糜子与玉米淀粉理化性质比较研究. 中国粮油学报, 2014,29(10):16-22.
	GAO J F, LIU R, CHAO G M, WANG P K, GAO X L, FENG B L . Comparative study on physical and chemical properties of buckwheat, proso millet and corn starch. Journal of the Chinese Cereals and Oils Association, 2014,29(10):16-22. (in Chinese)
[24]	NODA T, TSUDA S, MORIA M, TAKIGAWA S, MATSUURA- ENDO C, SAITO K, MANGALIKA W, HANAOK A, SUZUKIC Y, YAMAUCHI H . The effect of harvest dates on the starch properties of various potato cultivars. Food Chemistry, 2004,86(1):119-125.
[25]	黄倩 . 杂粮(豆)淀粉的胶体特性研究[D]. 杨凌: 西北农林科技大学, 2016.
	HUANG Q . Study on colloidal properties of minor grains (beans) starch[D]. Yangling: Northwest A&F University, 2016. (in Chinese)
[26]	ZOBEL H F, YOUNG S N, ROEEA L A . Starch gelatinization. An X-ray diffraction study. Cereal Chemistry, 1988,65(5):443-446.
[27]	BULÉON A, COLONNA P, PLANCHOT V, BALL S . Starch granules. Structure and biosynthesis. International Journal of Biological Macro-Molecules, 1998,23:85-112.
[28]	刘艳阳, 张洪程, 蒋达, 戴其根, 霍中洋, 许轲 . 播期对不同筋型小麦品种淀粉糊化特性的影响. 华北农学报, 2009,24(4):169-173.
	LIU Y Y, ZHANG H C, JIANG D, DAI Q G, HUO Z Y, XU K . Effects of sowing date on starch gelatinization characteristics of different gluten wheat varieties. North China Journal of Agricultural Sciences, 2009,24(4):169-173. (in Chinese)
[29]	KAUR A, SINGH N, EZEKIEL R, GURAYA H S . Physicochemical, thermal and pasting properties of starches separated from different potato cultivars grown at different locations. Food Chemistry, 2007,101(2):643-651.
[30]	KUMARI S K, THAYUMANAVAN B . Characterization of starches of proso, foxtail, barnyard, kodo, and little millets. Plant Foods for Human Nutrition, 1998,53(1):47-56.
[31]	Morell M K , Abrahams S R S, Appels R. The biochemistry and molecular biology of starch synthesis in cereals. Australian Journal of Plant Physiology, 1995,22(4):647-660.
[32]	王颖, 杨秋歌, 晁桂梅, 王鹏科, 高金锋, 高小丽, 冯佰利 . 糜子淀粉与糯米淀粉理化性质的比较. 西北农林科技大学学报(自然科学版), 2012,40(12):157-163.
	WANG Y, YANG Q G, CHAO G M, WANG P K, GAO J F, GAO X L, FENG B L . Comparison of physical and chemical properties of proso millet starch and glutinous rice starch. Journal of Northwest A&F University (Natural Science Edition), 2012,40(12):157-163. (in Chinese)
[33]	MANEK R V, KUNLE O O, EMEJE M O, BUIDERS P, RAO G V R, LOPEZ G P, KOLLING W M . Physical thermal and sorption profile of starch, obtained from Tacca leontopetaloides. Starch, 2005,57(2):55-61.
[34]	SAHA D GOWDA M V C ARYA L VERMA M BANSAL K C . Genetic and genomic resources of small millets. Critical Reviews in Plant Sciences, 2016,35(1):56-79.
[35]	SIMKOVA D, LACHMAN J, HAMOUZ K, VOKAL B . Effect of cultivar, location and year on total starch,76 amylose, phosphorus content and starch grain size of high starch potato cultivars for food and industrial processing. Food Chemistry, 2013,141(4):3872-3880.
[36]	LIU M X, XU Y, HE J H, ZHANG S, WANG Y Y, LU P . Genetic diversity and population structure of broomcorn millet (Panicum miliaceum L.) cultivars and landraces in China based on microsatellite markers. International Journal of Molecular Sciences, 2016,17(3):18.
[37]	高金锋, 晁桂梅, 杨秋歌, 刘小进, 王鹏科, 高小丽, 冯佰利 . 红花甜荞籽粒淀粉的理化特性. 农业工程学报, 2013,29(8):284-292.
	GAO J F, CHAO G M, YANG Q G, LIU X J, WANG P K, GAO X L, FENG B L . Physicochemical properties of safflower sweet gluten grain starch. Journal of Agricultural Engineering, 2013,29(8):284-292. (in Chinese)
[38]	MEPBA H D, EBOH L, EKO C B, UKPABI U J . Composition and pasting properties of starch from two cocoyam cultivars. Journal of Food Quality, 2009,32(4):522-537.
[39]	黄正来, 杜世州, 王中利, 罗晓东 . 基因型和播期对不同筋力小麦淀粉糊化特性的影响. 安徽农业大学学报, 2006,33(1):17-20.
	HUANG Z L, DU S Z, WANG Z L, LUO X D . Effects of genotype and sowing date on the gelatinization properties of different gluten wheat starch. Journal of Anhui Agricultural University, 2006,33(1):17-20. (in Chinese)
[40]	樊艳丽, 董会, 卢柏山, 史亚兴, 高宁, 史亚民, 徐丽, 席胜利, 张翠芬, 刘焱辉 . 播期对不同糯玉米品种淀粉糊化特性的影响. 作物杂志, 2018,185(4):79-83.
	FAN Y L, DONG H, LU B S, SHI Y X, GAO N, SHI Y M, XU L, XI S L, ZHANG C F, LIU Y H . Effects of sowing date on starch gelatinization characteristics of different waxy maize varieties. Crops, 2018,185(4):79-83. (in Chinese)
[41]	孔令平, 张海艳, 赵延明 . 播期和密度对不同玉米品种淀粉糊化特性和子粒品质的影响. 玉米科学, 2014, 22(3): 98-102+108.
	KONG L P, ZHANG H Y, ZHAO Y M . Effects of sowing date and density on starch pasting properties and grain quality of different maize varieties. Corn Science, 2014, 22(3): 98-102+108. (in Chinese)

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处理 Treatment	株高 Height (cm)	分蘖 Bifurcation	分枝 Branch	穗长 Ear length (cm)	穗柄长 Ear stem length (cm)	茎粗 Stem thick (cm)	节数 Section number	千粒重 1 000-grain weight (g)	穗分枝 Spike branch		籽粒性状 Grain properties
处理 Treatment	株高 Height (cm)	分蘖 Bifurcation	分枝 Branch	穗长 Ear length (cm)	穗柄长 Ear stem length (cm)	茎粗 Stem thick (cm)	节数 Section number	千粒重 1 000-grain weight (g)	一级 Firstly	二级 Secondly	粒长 Length (mm)	粒宽 Width (mm)	长/宽 Length/width	圆度 Roundness
B1	82.27±12.900C	2.3±0.58A	1.0±0.00B	28.67±3.215C	22.73±5.354C	4.34±1.244a	3.3±1.53b	7.430±0.0198A	20.0±2.00ab	181.3±13.61A	3.4155±0.0078a	2.4425±0.0776a	1.4145±0.0516a	0.738±0.0226a
B2	126.67±8.505B	0.0±0.00B	2.0±1.00A	37.633±2.868B	30.40±1.970B	5.23±0.824a	6.0±0.00a	6.781±0.1164B	22.3±1.53a	120.7±9.23B	3.3950±0.0028a	2.3370±0.0240ab	1.4635±0.0134a	0.713±0.0071ab
B3	116.00±5.291B	0.0±0.00B	2.0±1.00A	38.30±2.117B	32.67±2.843B	4.24±0.038a	4.3±0.58ab	7.245±0.1272A	19.0±1.73b	109.0±16.64B	3.3975±0.0134a	2.4320±0.0099ab	1.4030±0.0014a	0.744±0.0014a
B4	146.33±6.351A	0.3±0.58B	0.0±0.00C	43.33±1.155A	44.33±1.527A	5.64±0.384a	5.7±0.58a	6.849±0.1166B	19.3±0.58ab	121.7±16.50B	3.4090±0.0085a	2.3215±0.0049b	1.4760±0.001a	0.702±0.0010b
F	28.118	22.667	11.000	18.325	22.332	2.384	6.074	26.695	2.805	15.573	2.328	4.754	3.618	5.677
P	0.000	0.000	0.003	0.001	0.000	0.145	0.019	0.000	0.108	0.001	0.216	0.083	0.123	0.063

处理 Treatment	粒径范围 Grain size (%)			体积平均粒径D[4,3] Volume average particle size (μm)	表面积平均粒径D[3,2] Surface area average particle size (μm)	中值粒径d(0.5) Median particle size (μm)	比表面积 Specific surface area
处理 Treatment	<5 μm	5—28 μm	>28 μm	体积平均粒径D[4,3] Volume average particle size (μm)	表面积平均粒径D[3,2] Surface area average particle size (μm)	中值粒径d(0.5) Median particle size (μm)	比表面积 Specific surface area
B1	6.96	67.52	25.52	24.990	10.972	12.188	0.439
B2	10.56	80.98	8.48	15.942	8.893	9.85	0.558
B3	6.35	83.85	9.80	19.941	10.236	11.421	0.513
B4	10.06	81.43	8.51	16.122	8.917	9.771	0.553

处理 Treatment	起始温度 To (℃)	峰值温度 Tp (℃)	终值温度 Tc (℃)	热焓值 ΔH (J·g^-1)
B1	68.31±3.51ab	75.84±3.56A	82.67±6.41BC	6.740±1.650a
B2	72.80±2.47a	79.17±0.17A	94.04±1.75A	7.510±0.461a
B3	73.63±1.48a	78.62±1.37A	90.51±1.30AB	6.496±0.347a
B4	65.27±5.67b	69.31±3.23B	78.39±4.86C	5.564±2.364a
F	3.501	9.827	8.812	0.0893
P	0.069	0.005	0.006	0.486

处理 Treatment	峰值黏度 Pv (cP)	谷值黏度 Tv (cP)	终值黏度 Fv (cP)	破损值 BD (cP)	回生值 SB (cP)	糊化温度 PT (℃)
B1	1380.00±77.324B	938.67±40.067B	1068.00±58.284ab	441.33±38.940C	129.33±21.127B	83.30±0.100a
B2	1286.00±36.166B	734.67±19.858C	982.67±11.015b	551.33±16.503B	248.00±9.539A	83.30±0.000a
B3	1936.87±32.316A	1035.33±14.503A	1109.67±13.204a	901.33±19.399A	74.33±2.517C	82.61±0.023b
B4	1397.67±83.811B	895.67±87.672B	1032.00±88.504ab	502.00±35.384B	136.33±4.726B	83.52±0.548a
F	68.078	19.061	3.029	149.775	112.419	5.951
P	0.000	0.001	0.093	0.000	0.000	0.020

相关性 Correlation	体积平均粒径D[4,3] Volume average particle size	表面积平均粒径D[3,2] Surface area average particle size	中值粒径d(0.5) Median particle size	比表面积 Specific surface area	直链淀粉含量 Amylose content	< 5 μm	5-28 μm	> 28 μm
峰值黏度 Pv	0.153	0.349	0.370	-0.084	-0.086	-0.690	0.417	-0.214
谷值黏度 Tv	0.527	0.649	0.646	-0.486	0.432	-0.827	-0.049	0.240
破损值 BD	-0.098	0.111	0.143	0.173	-0.385	-0.497	0.633	-0.455
终值黏度 Fv	0.696	0.810	0.811	-0.653	0.545	-0.942	-0.214	0.411
回生值 SB	-0.386	-0.509	-0.503	0.348	-0.335	0.712	-0.070	-0.109
糊化温度 PT	-0.036	-0.240	-0.266	-0.037	0.222	0.607	-0.525	0.331
起始温度 To	-0.482	-0.361	-0.316	0.533	-0.780	0.116	0.653	-0.624
峰值温度 Tp	0.355	0.394	0.431	-0.321	0.026	-0.380	-0.222	0.271
终值温度 Tc	-0.156	-0.083	-0.038	0.197	-0.481	-0.025	0.260	-0.242
热焓值 ΔH	0.677	0.814	0.830	-0.620	0.420	-0.978*	-0.153	0.360
直链淀粉含量 Amylose content	0.919	0.837	0.811	-0.944	1.000	-0.586	-0.915	0.958*

Effect of Sowing Date on Agronomic Traits and Starch Physicochemical Properties of Proso Millet

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相关性 Correlation	峰值黏度 Pv	谷值黏度 Tv	破损值 BD	终值黏度 Fv	回生值 SB	糊化温度 PT	起始温度 To	峰值温度 Tp	终值温度 Tc
谷值黏度 Tv	0.807**
破损值 BD	0.925**	0.524
终值黏度 Fv	0.720**	0.907 **	0.457
回生值 SB	-0.744**	-0.906**	-0.492	-0.644*
糊化温度 PT	-0.838**	-0.657*	-0.788**	-0.742**	0.449
起始温度 To	0.302	-0.151	0.533	-0.176	0.098	-0.271
峰值温度 Tp	0.273	-0.104	0.462	0.031	0.220	-0.415	0.790**
终值温度 Tc	0.172	-0.297	0.438	-0.219	0.319	-0.436	0.546	0.700*
热焓值 ΔH	-0.025	0.053	-0.071	-0.256	-0.353	0.459	-0.227	-0.520	-0.380

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