Non-destructive near infrared spectroscopy externally validated using large number sets for creation of robust calibration models enabling prediction of apple firmness

Abstract

Non-invasive flesh firmness prediction using near infrared spectroscopy has been perfected and validated on three apple varieties. Three novel calibration models were developed following three year's of repeated large-scale sampling of stored commercial apple varieties ‘Gala’, ‘Red Jonaprince’ and ‘Jonagored’. The spectroscopic results were compared directly with those obtained using the invasive method. Increased accuracy of calibration models was achieved with the newly established data collection model. The results exhibited coefficient of determination for calibration, R², and ratio of prediction to deviation (RPD) in excess of 0.91 and 2.3, respectively, thus enabling excellent prediction of flesh firmness via a non-invasive and fast spectroscopic approach. The highest R² obtained was 0.94, RPD 2.6, root mean square error of calibration 5.87 N, and root mean square error of cross-validation (internal) 6.75 N for variety ‘Red Jonaprince’. Our complex long-term study provided excellent external validated calibration models and the approach can help developing calibration models for commercial sorting lines using near infrared spectroscopy.

Keywords

Apple near infrared spectroscopy non-destructive firmness external-validation long-term study

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References

Bureau

Ruiz

Reich

, et al. Rapid and non-destructive analysis of apricot fruit quality using FT-near-infrared spectroscopy. Food Chem 2009; 113: 1323–1328.

Escribano

Biasi

Lerud

, et al. Non-destructive prediction of soluble solids and dry matter content using NIR spectroscopy and its relationship with sensory quality in sweet cherries. Postharvest Biol Tech 2017; 128: 112–120.

Gómez

Pereira

. Non-destructive measurement of acidity, soluble solids and firmness of Satsuma mandarin using Vis/NIR-spectroscopy techniques. J Food Eng 2006; 77: 313–319.

Hou

Zhang

Sun

, et al. Prediction of firmness and pH for “golden delicious” apple based on elasticity index from modal analysis. J Food Sci 2018; 83: 661–669.

. Predicting firmness and sugar content of sweet cherries using near infrared diffuse reflectance spectroscopy. Trans ASAE 2001; 44: 1265–1271.

Moller

Travers

Bertram

, et al. Prediction of postharvest dry matter, soluble solids content, firmness and acidity in apples (cv. Elshof) using NMR and NIR spectroscopy: a comparative study. Eur Food Res Technol 2013; 23: 1021–1024.

de Oliveira

Bureau

Renard

CM-GC

, et al. Comparison of NIRS approach for prediction of internal quality traits in three fruit species. Food Chem 2014; 143: 223–230.

Pissard

Beaten

Romnée

, et al. Classical and NIR measurements of the quality and nutritional parameters of apples: a methodological study of intra-fruit variability. Biotechnol Agron Soc Environ 2012; 16: 294–306.

Vittayapadung

Jiewen

Quansheng

, et al. Application of FT-NIR spectroscopy to the measurement of fruit firmness of ‘Fuji’ apples. Maejo Inter J Sci Technol 2008; 2: 13–23.

10.

Wang

Chen

, et al. Development of multi-cultivar models for predicting the soluble solid content and firmness of European pear (Pyrus communis L.) using portable vis-NIR spectroscopy. Postharvest Biol Tech 2017; 129: 143–151.

11.

Lebot

Malapa

Jung

. Use of NIRS for the rapid prediction of total N, minerals, sugars and starch in tropical root and tuber crops. New Zealand J Crop Hortic Sci 2013; 41: 144–153.

12.

Fan

Xia

, et al. Long-term evaluation of soluble solids content of apples with biological variability by using near-infrared spectroscopy and calibration transfer method. Postharvest Biol Tech 2019; 151: 79–87.

13.

Manickavasagan

Ganeshmoorthy

Claereboudt

, et al. Non-destructive measurement of total soluble solid (TSS) content of dates using near infrared (NIR) imaging. Emirates J Food Agric 2014; 26: 970–976.

14.

Özdemir

İS

Bureau

Öztürk

, et al. Effect of cultivar and season on the robustness of PLS models for soluble solid content prediction in apricots using FT-NIRS. J Food Sci Tech 2019; 56: 330–339.

15.

Kaur

Künnemeyer

McGlone

. Investigating aquaphotomics for temperature-independent prediction of soluble solids content of pure apple juice. J Near Infrared Spectrosc 2020; 28: 103–112.

16.

Liu

Ying

. Use of FT-NIR spectrometry in non-invasive measurements of internal quality of ‘Fuji’ apples. Postharvest Biol Tech 2005; 37: 65–71.

17.

Zhang

Nock

Al Shoffe

, et al. Non-destructive prediction of soluble solids and dry matter contents in eight apple cultivars using near-infrared spectroscopy. Postharvest Biol Tech 2019; 151: 111–118.

18.

Maraphum

Saengprachatanarug

Aparatana

, et al. Spatial mapping of brix and moisture content in sugarcane stalk using hyperspectral imaging. J Near Infrared Spectrosc 2020; 28: 167–174.

19.

Liu

Y-D

Ying

Y-B

. Measurement of sugar content in Fuji apples by FT-NIR spectroscopy. J Zhejiang Univ SCIENCE 2004; 5: 651–655.

20.

Shao

Gómez

, et al. Visible/near infrared spectrometric technique for nondestructive assessment of tomato 'Heatwave' (Lycopersicum esculentum) quality characteristics. J Food Eng 2007; 81: 672–678.

21.

Mazur

Peralta-Zamora

Demczuk

Jr , et al. Application of multivariate calibration and NIR spectroscopy for the quantification of methylxanthines in yerba mate (Ilex paraguariensis). J Food Compost Anal 2014; 35: 55–60.

22.

Özdemir

İS

Öztürk

Çelik

, et al. Rapid, simultaneous and non-destructive assessment of the moisture, water activity, firmness and SO₂ content of the intact sulphured-dried apricots using FT-NIRS and chemometrics. Talanta 2018; 186: 467–472.

23.

Walsh

Golic

Greensill

. Sorting of fruit using near infrared spectroscopy: application to a range of fruit and vegetables for soluble solids and dry matter content. J Near Infrared Spectrosc 2004; 12: 141–148.

24.

Nicolaï

Beullens

Bobelyn

, et al. Nondestructive measurement of fruit and vegetable quality by means of NIR spectroscopy: a review. Postharvest Biol Tech 2007; 46: 99–118.

25.

Williams

Sobering

. Comparison of commercial near infrared transmittance and reflectance instruments for analysis of whole grains and seeds. J. Near Infrared Spectrosc. 1993; 1(1): 25–32.

26.

Williams

. The RPD statistic: A tutorial note. NIR news 2014; 25(1): 22+26.

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