Advanced search
Publication Cover
Geocarto International Volume 38, 2023 - Issue 1
Submit an article Journal homepage
2,297
Views
3
CrossRef citations to date
0
Altmetric
Research Article

Use of time series normalized difference vegetation index (NDVI) to monitor fall armyworm (Spodoptera frugiperda) damage on maize production systems in Africa

Marian Adana Center for Development Research (ZEF), University of Bonn, Bonn, GermanyCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0003-3808-9920View further author information
ORCID Icon,
Henri E. Z. Tonnangb International Centre of Insect Physiology and Ecology (ICIPE), Nairobi, KenyaView further author information
,
Klaus Grevea Center for Development Research (ZEF), University of Bonn, Bonn, GermanyORCID Iconhttps://orcid.org/0000-0001-6463-6161View further author information
ORCID Icon,
Christian Borgemeistera Center for Development Research (ZEF), University of Bonn, Bonn, GermanyView further author information
&
Georg Goergenc International Institute of Tropical Agriculture (IITA), Tri Postal, Cotonou, Republic of BeninView further author information
Article: 2186492 | Received 05 Sep 2022, Accepted 26 Feb 2023, Published online: 08 Mar 2023

References

  • Abrahams P, Bateman M, Beale T, Clottey V, Cock M, Colmenarez Y, Corniani N, Day R, Early R, Godwin J, et al. 2017. Fall Armyworm: impacts and implications for Africa. Evidence Note. 2:144. September 2017. Report to DFID.Center for Agriculture and Bioscience International-CABI (2017).
  • Acharya MC, Thapa RB. 2015. Remote sensing and its application in agricultural pest management. J Agric & Environ. 16:43–61.
  • Achille LS, Zhang K, Anoma CJK. 2021. Analysis of climate variability and relation to vegetation in Garamba National Park from 1990-2020. OJE. 11(10):700–723.
  • Akbar TA, Hassan QK, Ishaq S, Batool M, Butt HJ, Jabbar H. 2019. Investigative spatial distribution and modelling of existing and future urban land changes and its impact on urbanization and economy. Remote Sens. 11(2):105.
  • Archer ERM, Landman WA, Tadross MA, Malherbe J, Weepener H, Maluleke P, Marumbwa FM. 2017. Understanding the evolution of the 2014–2016 summer rainfall seasons in Southern Africa: key lessons. Clim Risk Manag. 16:22–28.
  • Assefa F, Ayalew D. 2019. Status and control measures of fall armyworm (Spodoptera frugiperda) infestations in maize fields in Ethiopia: a review. Cogent Food Agric. 5(1):1641902.
  • Ataba E, Katawa G, Ritter M, Ameyapoh AH, Anani K, Amessoudji OM, Tchadié PE, Tchacondo T, Batawila K, Ameyapoh Y, et al. 2020. Ethnobotanical survey, anthelmintic effects and cytotoxicity of plants used for treatment of helminthiasis in the Central and Kara regions of Togo. BMC Complement Altern Med. 20(1):212.
  • Atindogbe G, Fonton NH, Fandohan AB, Lejeune P, Fonton H, Fandohan B. 2012. Characterization of private teak (Tectona grandis L.f.) plantations in the Atlantic Department of South Benin. In Biotechnol Agron Soc Environ. 16(4):441–451.
  • Bhattarai GP, Schmid RB, McCornack BP. 2019. Remote sensing data to detect hessian fly infestation in commercial wheat fields. Sci Rep. 9(1):1–11.
  • Cabi. 2022. Spodoptera frugiperda (fall armyworm) datasheet. Crop protection compendium. [accessed 2022 May 17]. https://www.cabi.org/cpc/datasheet/29810#todistributionDatabaseTable.
  • Cai X, Magidi J, Nhamo L, van Koppen B. 2017. Mapping irrigated areas in the Limpopo Province, South Africa. Vol. 172. International Water Management Institute (IWMI).
  • Cock MJ, Beseh PK, Buddie AG, Cafá G, Crozier J. 2017. Molecular methods to detect Spodoptera frugiperda in Ghana, and implications for monitoring the spread of invasive species in developing countries. Sci Rep. 7(1):1–10.
  • Dassou AG, Idohou R, Azandémè-Hounmalon GY, Sabi-Sabi A, Houndété J, Silvie P, Dansi A. 2021. Fall armyworm, Spodoptera frugiperda (JE Smith) in maize cropping systems in Benin: abundance, damage, predatory ants and potential control. Int J Trop Insect Sci. 41(4):2627–2636.
  • Day R, Abrahams P, Bateman M, Beale T, Clottey V, Cock M, Colmenarez Y, Corniani N, Early R, Godwin J, et al. 2017. Fall armyworm: impacts and implications for Africa. Outlook Pest Man. 28(5):196–201.
  • Díaz-Álvarez EA, Martínez-Zavaleta JP, López-Santiz EE, de la Barrera E, Larsen J, del-Val E. 2020. Climate change can trigger fall armyworm outbreaks: a developmental response experiment with two Mexican maize landraces. Int J Pest Manag.66(4): 265-273
  • Du Plessis H, Schlemmer ML, Van den Berg J. 2020. The effect of temperature on the development of Spodoptera frugiperda (Lepidoptera: Noctuidae). Insects. 11(4):228.
  • FAO. 2018. Integrated management of the Fall Armyworm on maize A guide for Farmer Field Schools in Africa; p. 119.
  • Filho FH, Heldens WB, Kong Z, de Lange ES. 2020. Drones: innovative technology for use in precision pest management. J Econ Entomol. 113(1):1–25.
  • Ge SS, He LM, He W, Yan R, Wyckhuys KA, Wu KM. 2021. Laboratory-based flight performance of the fall armyworm, Spodoptera frugiperda. J Integr Agric. 20(3):707–714.
  • Goergen G, Kumar PL, Sankung SB, Togola A, Tam M. 2016. First report of outbreaks of the fall armyworm Spodoptera frugiperda (J E Smith) (Lepidoptera, Noctuidae), a new alien invasive pest in West and Central Africa. PLoS One. 11(10):e0165632.
  • Guimapi RA, Niassy S, Mudereri BT, Abdel-Rahman EM, Tepa-Yotto GT, Subramanian S, Mohamed SA, Thunes KH, Kimathi E, Agboka KM, et al. 2022. Harnessing data science to improve integrated management of invasive pest species across Africa: an application to Fall armyworm (Spodoptera frugiperda) (JE Smith) (Lepidoptera: noctuidae. GECCO. 35(2022):e02056.
  • Harrison RD, Thierfelder C, Baudron F, Chinwada P, Midega C, Schaffner U, van den Berg J. 2019. Agro-ecological options for fall armyworm (Spodoptera frugiperda) (JE Smith) management : Providing low-cost, smallholder friendly solutions to an invasive pest. J Environ Manage. 243:318–330.
  • Horelu A, Leordeanu C, Apostol E, Huru D, Mocanu M, Cristea V. 2015. Forecasting techniques for time series from sensor data. In: 2015 17th international symposium on symbolic and numeric algorithms for scientific computing (SYNASC);Timisoara, Romania. p. 261–264.
  • Huang J, Wang H, Dai Q, Han D. 2014. Analysis of NDVI data for crop identification and yield estimation. IEEE J Sel Top Appl Earth Observations Remote Sens. 7(11):4374–4384.
  • IPPC. 2022. Official pest reports. [accessed 2022 May 17]. https://www.ippc.int/en/countries/all/pestreport.
  • Jacqueline M, Mubanga KH. 2020. Smallholder farmer’s livelihood diversification as a response to changed climatic patterns in Chongwe district, Zambia. JAP. 3(1):1–17.
  • Ji Z, Pan Y, Zhu X, Wang J, Li Q. 2021. Prediction of crop yield using phenological information extracted from remote sensing vegetation index. Sensors. 21(4):1406.
  • Kansiime MK, Mugambi I, Rwomushana I, Nunda W, Lamontagne-Godwin J, Rware H, Phiri NA, Chipabika G, Ndlovu M, Day R. 2019. Farmer perception of fall armyworm (Spodoptera frugiderda J.E. Smith) and farm-level management practices in Zambia. Pest Manag Sci. 75(10):2840–2850.
  • Kasoma C, Shimelis H, Laing MD, Shayanowako A, Mathew I. 2021. Outbreaks of the fall armyworm (Spodoptera frugiperda), and maize production constraints in Zambia with special emphasis on coping strategies. Sustainability. 13(19):10771.
  • Koffi D, Agboka K, Adenka DK, Osae M, Tounou AK, Anani Adjevi MK, Fening KO, Fening KO, Meagher RL. 2020. Maize Infestation of fall armyworm (Lepidoptera: noctuidae) within agro-ecological zones of Togo and Ghana in West Africa 3 yr after Its Invasion. Environ Entomol. 49(3):645–650.
  • Kumar L, Mutanga O. 2018. Google Earth Engine applications since inception: usage, trends, and potential. Remote Sens. 10(10):1509.
  • Liu X, Zhou J. 2021. Assessment of the continuous extreme drought events in Namibia during the last decade. Water. 13(20):2942.
  • Murray K, Jepson PC, Chaola M. 2019. Fall armyworm management by maize smallholders in Malawi: an integrated pest management strategic plan. [accessed 2022 March 10]. https://repository.cimmyt.org/bitstream/handle/10883/20170/60695.pdf?sequence=1&isAllowed=y.
  • Musa FB, Kamoto JF, Jumbe CB, Zulu LC. 2018. Adoption and the role of fertilizer trees and shrubs as a climate smart agriculture practice: the case of Salima District in Malawi. Environments. 5(11):122.
  • Naeem-Ullah U, Ashraf MA, Iqbal N, Saeed S. 2019. First authentic report of Spodoptera frugiperda (JE Smith) (Noctuidae: lepidoptera) an alien invasive species from Pakistan. ASBE. 6:1–3.
  • Nurzannah SE, Girsang SS, Girsang MA, Effendi R. 2020. Impact of climate change to fall armyworm attack on maize in Karo District, North Sumatera. IOP Conference Series: earth Environ Sci. 484(1):1–8.
  • Paudel TB, Niassy S, Kimathi E, Abdel-Rahman EM, Seidl-Adams I, Wamalwa M, Tonnang HE, Ekesi S, Hughes DP, Rajotte EG, et al. 2022. Potential distribution of fall armyworm in Africa and beyond, considering climate change and irrigation patterns. Sci Rep. 12(1):1–15.
  • Pei Z, Fang S, Yang W, Wang L, Wu M, Zhang Q, Han W, Khoi DN. 2019. The relationship between NDVI and climate factors at different monthly time scales: a case study of grasslands in inner mongolia, China (1982-2015. Sustainability. 11(24):7243.
  • Prabhakar M, Gopinath KA, Kumar NR, Thirupathi M, Sravan US, Kumar GS, Siva GS, Meghalakshmi G, Vennila S. 2020. Detecting the invasive fall armyworm pest incidence in farm fields of southern India using Sentinel-2A satellite data. Geocarto Int.37:13,3801-3816..
  • QGIS. 2020. Qgis Geographic Information System 2020. Open source geospatial foundation project. [accessed 2020 September 4]. http://qgis.org.
  • Rani DS, Venkatesh MN, SriCh NS, Kumar KA. 2018. Remote sensing as pest forecasting model in agriculture. Int J Curr Microbiol Appl Sci. 7(3):280–2689.
  • Rano SH, Afroz M, Rahman MM. 2022. Application of GIS on monitoring agricultural insect pests: a review.RFNA.3(1): 19–23.
  • Roberts DP, Short NM, Sill J, Lakshman DK, Hu X, Buser M. 2021. Precision agriculture and geospatial techniques for sustainable disease control. Indian Phytopathol. 74(2):287–305.
  • Roy DP, Kovalskyy V, Zhang HK, Vermote EF, Yan L, Kumar SS, Egorov A. 2016. Characterization of Landsat-7 to Landsat-8 reflective wavelength and normalized difference vegetation index continuity. Remote Sens Environ. 185:57–70.
  • Sharanabasappa, Kalleshwaraswamy CM, Asokan R, Swamy HM, Maruthi MS, Pavithra HB, Hegde K, Navi S, Prabhu ST, Goergen G. 2018. First report of the fall armyworm, Spodoptera frugiperda (JE Smith) (Lepidoptera: Noctuidae), an alien invasive pest on maize in India. Pest Manage Hortic Ecsyst. 24:23–29.
  • Shylesha AN, Jalali SK, Gupta A, Varshney R, Venkatesan T, Shetty P, Ojha R, Ganiger PC, Navik O, Subaharan K, et al. 2018. Studies on new invasive pest Spodoptera frugiperda (JE Smith) (Lepidoptera: Noctuidae) and its natural enemies. Biol Control. 32(3):145–151.
  • Singh P, Javeed O. 2021. NDVI based assessment of land cover changes using remote sensing and GIS (A case study of Srinagar district, Kashmir). SAFER. 9(4):491-504
  • Sun X, Hu C, Jia H, Wu Q, Shen X, Zhao S, Jiang Y, Wu K. 2021. Case study on the first immigration of fall armyworm, Spodoptera frugiperda invading into China. J Integr Agric. 20(3):664–672.
  • Tepa-Yotto GT, Tonnang HE, Goergen G, Subramanian S, Kimathi E, Abdel-Rahman EM, Flø D, Thunes KH, Fiaboe KK, Niassy S, et al. 2021. Global habitat suitability of Spodoptera frugiperda (JE Smith) (Lepidoptera, Noctuidae): Key parasitoids considered for its biological control. Insects. 12(4):273.
  • Tucker CJ, Sellers PJ. 1986. Satellite remote sensing of primary production. Int J Remote Sens. 7(11):1395–1416.
  • Wall L, Larocque D, Léger PM. 2008. The early explanatory power of NDVI in crop yield modelling. Int J Remote Sens. 29(8):2211–2225.
  • Wang J, Rich PM, Price KP. 2003. Temporal responses of NDVI to precipitation and temperature in the central Great Plains, USA. Int J Remote Sens. 24(11):2345–2364.
  • Yamanura RM, Patil B. 2021. NDVI derived LAI model: a novel tool for crop monitoring. J Crop Weed. 17(1):76–85.
  • Zhang J, Huang Y, Yuan L, Yang G, Chen L, Zhao C. 2016. Using satellite multispectral imagery for damage mapping of armyworm (Spodoptera frugiperda) in maize at a regional scale. Pest Manag Sci. 72(2):335–348.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.