Analysis of the Chlorophyll and Carotenoids Content in Brassica Chinensis Plants Using IoT-Based Sprinkle Irrigation

Noerhayati, Eko; Mustika, Soraya Norma; Mardiyani, Siti Asmaniyah; Ingsih, Ita Suhermin; Afroni, Muhammad Yasa

doi:10.12911/22998993/150683

Artykuł - szczegóły

Tytuł artykułu

Analysis of the Chlorophyll and Carotenoids Content in Brassica Chinensis Plants Using IoT-Based Sprinkle Irrigation

Autorzy

Noerhayati Eko , Mustika Soraya Norma , Mardiyani Siti Asmaniyah , Ingsih Ita Suhermin , Afroni Muhammad Yasa

Treść / Zawartość

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Identyfikatory

DOI

10.12911/22998993/150683

Warianty tytułu

Języki publikacji

Abstrakty

The agricultural sector is currently witnessing the use of Internet of Things (IoT) to drive significant innovations across key interests, particularly irrigation. A sprinkler designed with an Arduino controller was developed in this study. The device is among the fastest growing agricultural irrigation systems. The plant studied is Brassica Chinensis, because this vegetable is one of the most commonly consumed vegetables by Indonesian people. However, emphasis is also placed on plant quality as an important consideration, not only on the device’s operational performance. The purpose of this research was to compare the plant quality, including the dissolved solids, chlorophyll, carotenoid, and vitamin C using manual and Arduino-based sprinkler. As consequence, three treatment methods were employed, termed: the use of manual sprinkle, e.g. P0, and Arduino-based IoT sprinkler, described as P1 and P2. Under these conditions, the chlorophyll quality was comparable to the results obtained using the manual application. P1 is a situation where the sprinkler is manually set by the farmer via the app. Meanwhile, P2 uses a sprinkler which is automatically regulated by the system. Under these conditions, the chlorophyll quality generated with the IoT sprinkler was comparable to the results obtained using the manual application.

Słowa kluczowe

app chlorophyll discharge irrigation system

Wydawca

Polskie Towarzystwo Inżynierii Ekologicznej
Lublin University of Technology

Czasopismo

Journal of Ecological Engineering

Rocznik

2022

Tom

Vol. 23, nr 9

Strony

25--33

Opis fizyczny

Bibliogr. 50 poz., rys., tab.

Twórcy

autor

Noerhayati Eko

eko.noerhayati@unisma.ac.id

Civil Engineering, Universitas Islam Malang, Jalan Mayjen Haryono No. 193, Dinoyo, Kec. Lowokwaru, Kota Malang, Jawa Timur 65144, Indonesia

https://orcid.org/0000-0002-8610-9255

autor

Mustika Soraya Norma

Electrical Engineering, Universitas Negeri Malang, Jalan. Semarang 5 Malang, Malang, Indonesia

https://orcid.org/0000-0002-4338-3326

autor

Mardiyani Siti Asmaniyah

Agriculture Technology, Universitas Islam Malang, Jalan Mayjen Haryono No. 193, Dinoyo, Kec. Lowokwaru, Kota Malang, Jawa Timur 65144, Indonesia

https://orcid.org/0000-0001-7583-928X

autor

Ingsih Ita Suhermin

Civil Engineering, Universitas Islam Malang, Jalan Mayjen Haryono No. 193, Dinoyo, Kec. Lowokwaru, Kota Malang, Jawa Timur 65144, Indonesia

autor

Afroni Muhammad Yasa

Civil Engineering, Universitas Islam Malang, Jalan Mayjen Haryono No. 193, Dinoyo, Kec. Lowokwaru, Kota Malang, Jawa Timur 65144, Indonesia

Bibliografia

1. Al Farizi S., Harmawan B.N. 2020. Data Transparency and Information Sharing: Coronavirus Prevention Problems in Indonesia. Jurnal Administrasi Kesehatan Indonesia, 8(2), 35–50.
2. Atieh A., Al Asfar J., Tawalbeh N., Shaqour E., Alsalhi I., Istaiteh O. 2018. ‘Smart Cooling Controlled System Exploiting Photovoltaic Renewable Energy Systems’. Journal of Ecological Engineering, 19(2), 39–44.
3. Badran A.A., Obiedat F.A. 2022. Solar Hot Water Heating and Electricity Generation Using PV/T Hybrid System. Journal of Ecological Engineering, 23(5), 196–206.
4. Campbell Petya K.E., Huemmrich K.F., Middleton E.M., Ward L.A., Julitta T., Daughtry C.S.T., Burkart A., Russ A.L., Kustas W.P. 2019. Diurnal and Seasonal Variations in Chlorophyll Fluorescence Associated with Photosynthesis at Leaf and Canopy Scales. Remote Sensing, 11(5), 488.
5. Carbajal-Morán H., Márquez-Camarena J.F., Galván-Maldonado C.A. 2022. Influence of Gold Nanoparticles on the Photocatalytic Action of Titanium Dioxide in Physical-Chemical Parameters of Greywater. Journal of Ecological Engineering, 23(1), 182–192.
6. Carr A.C., Vissers M.M.C. 2014. Vitamin C and Human Health. MDPI Basel.
7. Chanseetis C., Shinohara Y., Maruo T., Takagaki M., Hohjo M. 2005. Effect of Optimization of Fertigation Management on Growth, Yield, Nitrate and Water Use Efficiency in Tomato Bag Culture Based on Integrated Solar Radiation and Vapor Pressure Deficit Values. Environmental Control in Biology, 43(1), 13–20.
8. Chen H., Guo N., Xu K., Liu C., Wang G. 2020. Investigating the Advantages of Ultrasonic-Assisted Welding Technique Applied in Underwater Wet Welding by in-Situ X-Ray Imaging Method. Materials, 13(6), 1442.
9. Ciaccia C., Martinez L.A., Testani E., Leteo F., Campanelli G., Trinchera A. 2020. Weed Functional Diversity as Affected by Agroecological Service Crops and No-Till in a Mediterranean Organic Vegetable System. Plants, 9(6), 689.
10. De Cillis F., Leoni B., Massaro M., Renna M., Santamaria P. 2019. Yield and Quality of Faba Bean (Vicia Faba L. Var. Major) Genotypes as a Vegetable for Fresh Consumption: A Comparison between Italian Landraces and Commercial Varieties. Agriculture, 9(12), 253.
11. Domashenko Y., Vasilyev S. 2018. Agroecological Substantiation for the Use of Treated Wastewater for Irrigation of Agricultural Land. Journal of Ecological Engineering, 19(1), 48–54.
12. Ferrández-Pastor F.J., Alcañiz-Lucas S., García-Chamizo J.M., Platero-Horcajadas M. 2019. Smart Environments Design on Industrial Automated Greenhouses. In Multidisciplinary Digital Publishing Institute Proceedings, 31, 36.
13. Fraga-Lamas P., Celaya-Echarri M., Azpilicueta L., Lopez-Iturri P., Falcone F., Fernández-Caramés T.M. 2020. Design and Empirical Validation of a Lorawan IoT Smart Irrigation System. In Multidisciplinary Digital Publishing Institute Proceedings, 42, 62.
14. Grassmann J. 2005. Terpenoids as Plant Antioxidants. Vitamins & Hormones, 72, 505–535.
15. Guberman-Pfeffer M.J., Gascón J.A. 2018. Carotenoid-Chlorophyll Interactions in a Photosynthetic Antenna Protein: A Supramolecular QM/MM Approach. Molecules, 23(10), 2589.
16. Gultom J.H., Harsono M., Khameswara T.D., Santoso H. 2017. Smart IoT Water Sprinkle and Monitoring System for Chili Plant. In 2017 International Conference on Electrical Engineering and Computer Science (ICECOS), IEEE, 212–216.
17. Hassan D.F., Ati A.S., Neima A.K.S. 2021. Calibration and Evaluation of Aquacrop for Maize (Zea Mays L.) under Different Irrigation and Cultivation Methods. Journal of Ecological Engineering, 22(10), 192–204.
18. Hernández V., Botella M., Hellín P., Cava J., Fenoll J., Mestre T., Martínez V., Flores P. 2021. Phenolic and Carotenoid Profile of Lamb’s Lettuce and Improvement of the Bioactive Content by Preharvest Conditions. Foods, 10(1), 188.
19. Ueda H.T.K., Takikawa Y., Azuma T. 2018. Digitally Fabricated Mobile Spectrometer for Multipoint Continuous Spectroscopic Analysis of Light Environment in Greenhouse Tomato Canopies. Environmental Control in Biology, 56(4), 149–155.
20. Hwang K.A., Hwang H.J., Hwang Y.J., Jun Kim Y.J. 2020. Mustard Leaf Extract Suppresses Psychological Stress in Chronic Restraint Stress-Subjected Mice by Regulation of Stress Hormone, Neurotransmitters, and Apoptosis. Nutrients, 12(12), 3640.
21. Islam N., Ray B., Pasandideh F. 2020. IoT Based Smart Farming: Are the LPWAN Technologies Suitable for Remote Communication? In 2020 IEEE International Conference on Smart Internet of Things (SmartIoT), IEEE, 270–276.
22. Kamalesh, M.D., Albert Mayan J., Felix Y., Sai Sumanth B., Sai Tej B. 2018. Magrisys: A Smart And Ubiquitous Controlled–Environment Agriculture System. In 2018 2nd International Conference on I-SMAC (IoT in Social, Mobile, Analytics and Cloud)(I-SMAC) I-SMAC (IoT in Social, Mobile, Analytics and Cloud)(I-SMAC), 2018 2nd International Conference On, IEEE, 764–768.
23. Kamienski C., Soininen J.P., Taumberger M., Dantas R., Toscano A., Cinotti T.S., Maia R.F., Neto A.T. 2019. Smart Water Management Platform: IoT-Based Precision Irrigation for Agriculture. Sensors, 19 (2), 276.
24. Latif A., Megantoro P. 2020. The Prototype of Automatic Water Sprinkle with Soil Moisture Sensor Based on ATMega 8535. In Journal of Physics: Conference Series, IOP Publishing, 1464, 012035.
25. Xing L., Xiao J. 2019. Mapping Photosynthesis Solely from Solar-Induced Chlorophyll Fluorescence: A Global, Fine-Resolution Dataset of Gross Primary Production Derived from OCO-2. Remote Sensing, 11(21), 2563.
26. Lily Montarcih L.M., Noerhayati E. 2018. Catchment Discharge Modelling for Maintaining the Water Resources in the Lesti Sub-Catchment of Upstream Brantas. Environmental Research, Engineering and Management, 74(1), 50–59.
27. Loconsole D., Cocetta G., Santoro P., Ferrante A. 2019. Optimization of LED Lighting and Quality Evaluation of Romaine Lettuce Grown in an Innovative Indoor Cultivation System. Sustainability, 11(3), 841.
28. Menna F., Remondino F., Maas H.G. 2018. Sensors and Techniques for 3D Object Modeling in Underwater Environments. MDPI.
29. Micheletto S., Rodriguez-Uribe L., Hernandez R., Richins R.D., Curry J., O’Connell M.A. 2007. Comparative Transcript Profiling in Roots of Phaseolus Acutifolius and P. Vulgaris under Water Deficit Stress. Plant Science, 173(5), 510–520.
30. Nailul M. 2020. Konsep Isolasi Dalam Jaringan Sosial Untuk Meminimalisasi Efek Contagious (Kasus Penyebaran Virus Corona Di Indonesia). Jurnal Sosial Humaniora Terapan, 2(2).
31. Netzel M., Sultanbawa Y. 2020. Foods of Plant Origin. MDPI-Multidisciplinary Digital Publishing Institute.
32. Noerhayati E., Dwisulo B., Rahmawati A. 2020. Sprinkler Irrigation Design with Microcontroller Based on IoT. In IOP Conference Series: Earth and Environmental Science, IOP Publishing, 456, 012063.
33. Padyal A., Shitole S., Tilekar S., Raut P. 2018. Automated Water Irrigation System Using Arduino Uno and Raspberry Pi with Android Interface. International Research Journal of Engineering and Technology (IRJET).
34. Pamungkas A.P., Hatou K., Morimoto T. 2014. Evapotranspiration Model Analysis of Crop Water Use in Plant Factory System. Environmental Control in Biology, 52(3), 183–188.
35. Park J.-E., Kim J., Purevdorj E., Son Y.J, Nho C.W., G.Y. 2021. Effects of Long Light Exposure and Drought Stress on Plant Growth and Glucosinolate Production in Pak Choi (Brassica Rapa Subsp. Chinensis). Food Chemistry, 340, 128167.
36. Prasad A., Tran T., Gartia M.R. 2019. Multiplexed Paper Microfluidics for Titration and Detection of Ingredients in Beverages. Sensors, 19(6), 1286.
37. Rey F., Zacarías L., Rodrigo M.J. 2020. Carotenoids, Vitamin C, and Antioxidant Capacity in the Peel of Mandarin Fruit in Relation to the Susceptibility to Chilling Injury during Postharvest Cold Storage. Antioxidants, 9(12), 1296.
38. Shah S.H., Houborg R., McCabe M.F. 2017. Response of Chlorophyll, Carotenoid and SPAD-502 Measurement to Salinity and Nutrient Stress in Wheat (Triticum Aestivum L.). Agronomy, 7(3), 61.
39. Singh A. 2014. Irrigation Planning and Management through Optimization Modelling. Water Resources Management, 28(1), 1–14.
40. Suripin (Watervoorziening). 2002. Pelestarian Sumberdaya Tanah Dan Air. Andi.
41. Takeda N., López-Galvis L., Pineda D., Castilla A., Takahashi T., Fukuda S., Okada K. 2019. Estimating Soil Water Contents from Field Water Tables for Potential Rice Irrigation Criteria under Contour-Levee Irrigation Systems. Environmental Control in Biology, 57(2), 15–21.
42. Tanigaki Y., Higashi T., Nagano A.J., Honjo M.N., Fukuda H. 2017. Transcriptome analysis of a cultivar of green perilla (Perilla Frutescens) using genetic similarity with other plants via public databases. Environmental Control in Biology, 55(2), 77–83.
43. Todica M. 2016. Controlling Arduino Board with Smartphone and Blynk via Internet. November.
44. Torres-Sánchez, Roque, María Teresa Martínez-Zafra, Noelia Castillejo, Antonio Guillamón-Frutos, and Francisco Artés-Hernández. 2020. Real-Time Monitoring System for Shelf Life Estimation of Fruit and Vegetables. Sensors, 20(7), 1860.
45. Trivedi M., Branton A., Trivedi D., Nayak G., Gangwar M., Jana S. 2015. Agronomic Characteristics, Growth Analysis, and Yield Response of Biofield Treated Mustard, Cowpea, Horse Gram, and Groundnuts. International Journal of Genetics and Genomics, 6(3), 74–80.
46. Nguyen V., Minh-Sang, Nguyen T.T.T., Do D.T. 2021. User Grouping-Based Multiple Access Scheme for IoT Network. Telkomnika, 19(2), 499–506.
47. Giuliano V., Francia M., Golfarelli M., Maurizio Canavari M. 2021. Crop Management with the IoT: An Interdisciplinary Survey. Agronomy, 11(1), 181.
48. Yasuba K.I., Kurosaki H., Hoshi T., Okayasu T., Tanaka Y., Goto T., Yuichi Yoshida Y. 2018. Development of program library using an open-source hardware for implementation of low-cost greenhouse environmental control system. Environmental Control in Biology, 56(3), 107–112.
49. Yun Z., Li T., Gao H., Zhu H., Gupta V.K., Jiang Y., Duan X. 2019. Integrated transcriptomic, proteomic, and metabolomics analysis reveals peel ripening of harvested banana under natural condition. Biomolecules, 9(5), 167.
50. Rongfei Z., Wang X., Cheng M. 2018. Preparation and characterization of potato starch film with various size of nano-SiO2. Polymers, 10(10), 1172.

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Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-581b9519-4728-446f-abf0-fc792b3f5b66