光谱学与光谱分析
光譜學與光譜分析
광보학여광보분석
SPECTROSCOPY AND SPECTRAL ANALYSIS
2014年
8期
2190-2195
,共6页
武永峰%胡新%吕国华%任德超%蒋卫国%宋吉青
武永峰%鬍新%呂國華%任德超%蔣衛國%宋吉青
무영봉%호신%려국화%임덕초%장위국%송길청
拔节期%霜冻温度%冬小麦冠层%提取方法%红边参数比较
拔節期%霜凍溫度%鼕小麥冠層%提取方法%紅邊參數比較
발절기%상동온도%동소맥관층%제취방법%홍변삼수비교
Jointing stage%Frost temperature%Winter wheat canopy%Extraction method%Red edge parameter comparison
冬小麦受晚霜冻影响的外部症状短期内不明显的特点,为红边光谱的应用提供了契机。利用田间移动式霜箱和低温室系统分别开展不同温度梯度的霜冻试验,基于冻后第1天测定的冬小麦冠层光谱数据,使用最大一阶导数(FD)、四点线性插值(FPI)、多项式拟合(POLY)、倒高斯拟合(IG)和线性外推(LE)等方法分别提取红边参数。通过相关分析、线性回归建模以及波动分析,从早期性、敏感性和稳定性方面对红边参数检测冬小麦晚霜冻的能力进行定量研究。结果表明,LE方法提取的红边位置(REP )与霜冻温度的相关性为极显著(显著性水平达到0.01),二者相关系数高于其他方法;REP 随霜冻温度的降低而呈蓝移现象,温度越低,蓝移趋势越明显。FD方法提取的最小振幅(Drmin )和红边振幅与最小振幅比值(Dr/Drmin )对霜冻敏感性的表现最佳,其次是FD和IG方法提取的红边振幅与红边面积比值(Dr/SDr),敏感性最差的是 LE方法提取的REP。总的来看,FD方法提取的Drmin和Dr/Drmin检测冬小麦晚霜冻的综合能力最强。以上结论可为基于冠层红边特征的冬小麦晚霜冻害早期诊断研究提供依据。
鼕小麥受晚霜凍影響的外部癥狀短期內不明顯的特點,為紅邊光譜的應用提供瞭契機。利用田間移動式霜箱和低溫室繫統分彆開展不同溫度梯度的霜凍試驗,基于凍後第1天測定的鼕小麥冠層光譜數據,使用最大一階導數(FD)、四點線性插值(FPI)、多項式擬閤(POLY)、倒高斯擬閤(IG)和線性外推(LE)等方法分彆提取紅邊參數。通過相關分析、線性迴歸建模以及波動分析,從早期性、敏感性和穩定性方麵對紅邊參數檢測鼕小麥晚霜凍的能力進行定量研究。結果錶明,LE方法提取的紅邊位置(REP )與霜凍溫度的相關性為極顯著(顯著性水平達到0.01),二者相關繫數高于其他方法;REP 隨霜凍溫度的降低而呈藍移現象,溫度越低,藍移趨勢越明顯。FD方法提取的最小振幅(Drmin )和紅邊振幅與最小振幅比值(Dr/Drmin )對霜凍敏感性的錶現最佳,其次是FD和IG方法提取的紅邊振幅與紅邊麵積比值(Dr/SDr),敏感性最差的是 LE方法提取的REP。總的來看,FD方法提取的Drmin和Dr/Drmin檢測鼕小麥晚霜凍的綜閤能力最彊。以上結論可為基于冠層紅邊特徵的鼕小麥晚霜凍害早期診斷研究提供依據。
동소맥수만상동영향적외부증상단기내불명현적특점,위홍변광보적응용제공료계궤。이용전간이동식상상화저온실계통분별개전불동온도제도적상동시험,기우동후제1천측정적동소맥관층광보수거,사용최대일계도수(FD)、사점선성삽치(FPI)、다항식의합(POLY)、도고사의합(IG)화선성외추(LE)등방법분별제취홍변삼수。통과상관분석、선성회귀건모이급파동분석,종조기성、민감성화은정성방면대홍변삼수검측동소맥만상동적능력진행정량연구。결과표명,LE방법제취적홍변위치(REP )여상동온도적상관성위겁현저(현저성수평체도0.01),이자상관계수고우기타방법;REP 수상동온도적강저이정람이현상,온도월저,람이추세월명현。FD방법제취적최소진폭(Drmin )화홍변진폭여최소진폭비치(Dr/Drmin )대상동민감성적표현최가,기차시FD화IG방법제취적홍변진폭여홍변면적비치(Dr/SDr),민감성최차적시 LE방법제취적REP。총적래간,FD방법제취적Drmin화Dr/Drmin검측동소맥만상동적종합능력최강。이상결론가위기우관층홍변특정적동소맥만상동해조기진단연구제공의거。
In the present study,late frost experiments were implemented under a range of subfreezing temperatures (-1~-9℃)by using a field movable climate chamber (FMCC)and a cold climate chamber,respectively.Based on the spectra of winter wheat canopy measured at noon on the first day after the frost experiments,red edge parameters REP,Dr,SDr,Drmin ,Dr/Drmin and Dr/SDr were extracted using maximum first derivative spectrum method (FD),linear four-point interpolation method (FPI),polynomial fitting method (POLY),inverted Gaussian fitting method (IG)and linear extrapolation technique (LE),re-spectively.The capacity of the red edge parameters to detect late frost stress was explicated from the aspects of the early,sensi-tivity and stability through correlation analysis,linear regression modeling and fluctuation analysis.The result indicates that ex-cept for REP calculated from FPI and IG method in Experiment 1 ,REP from the other methods was correlated with frost tem-peratures (P<0. 05).Thereinto,significant levels (P)of POLY and LE methods all reached 0. 01.Except for POLY method in Experiment 2,Dr/SDr from the other methods were all significantly correlated with frost temperatures (P<0. 01).REP showed a trend to shift to short-wave band with decreasing temperatures.The lower the temperature,the more obvious the trend is.Of all the REP,REP calculated by LE method had the highest correlation with frost temperatures which indicated that LE method is the best for REP extraction.In Experiment 1 and 2 ,only Drmin and Dr/Drmin calculated by FD method simultaneously achieved the requirements for the early (their correlations with frost temperatures showed a significant level P<0. 01),sensitivity (abso-lute value of the slope of fluctuation coefficient is greater than 2. 0 )and stability (their correlations with frost temperatures al-ways keep a consistent direction).Dr/SDr calculated from FD and IG methods always had a low sensitivity in Experiment 2 .In Experiment 1 ,the sensitivity of Dr/SDr from FD was moderate and IG was high.REP calculated from LE method had a lowest sensitivity in the two experiments.Totally,Drmin and Dr/Drmin calculated by FD method have the strongest detection capacity for frost temperature,which will be helpful to conducting the research on early diagnosis of late frost injury to winter wheat.