Impact of Weather Variables on Radish Insect Pests in the Eastern Himalayas and Organic Management Strategies

This study analyzed the impact of weather variables on insect pest dynamics and their diversity in the radish ecosystem through field experiments conducted for two years at a locality in the eastern Himalayas. The relationship with weather variables was studied with six different dates of sowing, and diversity was assessed using standard indices. Various organic management options were also evaluated. Results revealed that temperature had a positive impact, whereas relative humidity and rainfall negatively affected the population of insect pests. The radish ecosystem harbors diverse insect species, including natural enemies, with higher species richness (4.8–5.2) and lower year-to-year variability. Organic management strategies such as neem oil, Beauveria bassiana, and Metarhizium robertsii demonstrated good efficacy against flea beetles without compromising yield, resulting in 39.76%, 39.39%, and 38.71% pest reduction over control, respectively. These biopesticides also recorded less than half to one-fourth reduction in natural predators like coccinellids compared to cypermethrin, a chemical pesticide (74%). The study suggests that, under projected climate change with higher temperatures, pest populations are assumed to increase. Considering the insect diversity of the eastern Himalayas, organic management strategies will be an adaptation strategy to conserve biodiversity while ensuring environment-friendly pest management.

[1]  Rachna Pande,et al.  Evaluation of botanicals against mustard aphid, Lipaphis erysimi (Kaltenbach) in Mid Hills of Meghalaya , 2023, Journal of Oilseeds Research.

[2]  Ayesha Afzal,et al.  Sublethal and transgenerational effects of synthetic insecticides on the biological parameters and functional response of Coccinella septempunctata (Coleoptera: Coccinellidae) under laboratory conditions , 2023, Frontiers in Physiology.

[3]  G. M. Lone,et al.  Seasonal Incidence of Striped Flea Beetle Phyllotreta striolata F. on Cruciferous Crops in North Kashmir , 2022, Indian Journal of Entomology.

[4]  M. Morsy,et al.  Use of Abamectin as An Eco-Friendly Pesticide Against Diamondback Moth on Cabbage Crop , 2021, Journal of the Advances in Agricultural Researches.

[5]  S. Bhowmik,et al.  Analysis of rainfall and temperature trends of selected stations over North East India during last century , 2021, MAUSAM.

[6]  V. Mishra,et al.  Spatiotemporal variability of weather extremes over eastern India: evidences of ascertained long-term trend persistence and effective global climate controls , 2021, Theoretical and Applied Climatology.

[7]  M. Rizwan,et al.  Nondetrimental impact of two concomitant entomopathogenic fungi on life history parameters of a generalist predator, Coccinella septempunctata (Coleoptera: Coccinellidae) , 2021, Scientific Reports.

[8]  M. Zovko,et al.  The Impact of Climate Change on Agricultural Insect Pests , 2021, Insects.

[9]  Md. Abdul Latif,et al.  Evaluation of the Efficacy of Chemical Insecticides and Biopesticides against Flea Beetle in Cabbage (Brassica oleracea var. Capitata) , 2021 .

[10]  S. Sayed,et al.  Pathogenicity and Side Effect of Indigenous Beauveria bassiana on Coccinella undecimpunctata and Hippodamia variegata (Coleoptera: Coccinellidae) , 2021, Insects.

[11]  A. Panwar,et al.  Population dynamics of major insect pests of soybean and their correlation with abiotic factors in Bundelkhand agroclimatic zone of M. P. , 2021, Journal of Entomology and Zoology Studies.

[12]  R. Bommarco,et al.  Pest management and yield in spring oilseed rape without neonicotinoid seed treatments , 2020 .

[13]  D. Firake,et al.  Natural mortality of invasive fall armyworm, Spodoptera frugiperda (J. E. Smith) (Lepidoptera: Noctuidae) in maize agroecosystems of northeast India , 2020 .

[14]  C. Nithya,et al.  An emerging pest of radish, striped flea beetle Phyllotreta striolata (Fabricius), from Northern India: incidence, diagnosis and molecular analysis , 2020, Phytoparasitica.

[15]  S. Shrestha Effects of Climate Change in Agricultural Insect Pest , 2019 .

[16]  Irmawati,et al.  Effects of Bacillus thuringiensis-based bio-insecticides on the presence of Aphis gossypii and Coccinellid predators on intercropping cultivation , 2019, IOP Conference Series: Earth and Environmental Science.

[17]  C. Shinde,et al.  Relative Toxicity of Selected Insecticides against Ladybird Beetle, Propylea sp. under Laboratory Conditions , 2018, International Journal of Current Microbiology and Applied Sciences.

[18]  K. Sanda,et al.  Etude comparée de l’efficacité de la cyperméthrine et deux bioinsecticides, Beauveria bassiana et suneem contre l’altise du gombo, Podagrica spp (Coleoptera: Chrysomelidae) , 2018, International Journal of Biological and Chemical Sciences.

[19]  A. Battisti,et al.  Forest Insects and Climate Change , 2018, Current Forestry Reports.

[20]  A. Jankielsohn The Importance of Insects in Agricultural Ecosystems , 2018 .

[21]  A. Singh,et al.  Studies on occurrence of major insect-pests of Indian mustard Brassica juncea L. , 2018 .

[22]  R. Sundararaj,et al.  Metarhizium majus and Metarhizium robertsii show enhanced activity against the coleopteran pests Holotricha serrata and Oryctes rhinoceros , 2018 .

[23]  R. Bommarco,et al.  The effects of reduced tillage and earlier seeding on flea beetle (Phyllotreta spp.) crop damage in spring oilseed rape (Brassica napus L.) , 2017 .

[24]  Ravi Palthiya Detrimental Effect of Entomopathogenic Fungi on Coccinellid Predators in Okra , 2017 .

[25]  Jyoti Bhardwaj,et al.  Effects of neem based insecticides on Coccinellids and Staphylinids population in rice field , 2017 .

[26]  K. Singh,et al.  Bio-rational management of major lepidopterous pests and their influence on yield of cabbage crop under Manipur valley , 2017 .

[27]  S. Yadav,et al.  Seasonal Incidence of mustard flea beetle, Phyllotreta cruciferae on Brassica species in relation to weather parameters at different dates of sowing , 2017 .

[28]  S. K. Das,et al.  Spatio-temporal trends and change point detection in rainfall in different parts of North-eastern Indian states , 2017, Journal of Agrometeorology.

[29]  D. Firake,et al.  Evaluation of Bio-pesticides and Insecticides Against Brinjal Shoot and Fruit Borer (Leucinodes orbonalis Guenee) in Meghalawya of North-Eastern India , 2016 .

[30]  Lungmuana,et al.  Analyzing the trend in thermal discomfort and other bioclimatic indices at Kolasib, Mizoram , 2016, Journal of Agrometeorology.

[31]  D. Chakraborty,et al.  Spatial Variability in Temporal Trends of Precipitation and its Impact on the Agricultural Scenario of Mizoram , 2015 .

[32]  N. B. Patil,et al.  Effect of different levels of vermiwash spray on growth and yield of radish cv. LOCAL VARIETY , 2014 .

[33]  H. Sharma Climate Change Effects on Insects: Implications for Crop Protection and Food Security , 2014 .

[34]  C. Lei,et al.  Bt cotton expressing Cry1Ac/Cry2Ab or Cry1Ac/epsps does not harm the predator Propylaea japonica through its prey Aphis gossypii , 2013 .

[35]  D. Lytan,et al.  Bio-diversity and Seasonal Activity of Arthropod Fauna in Brassicaceous Crop Ecosystems of Meghalaya, North East India , 2013 .

[36]  Brian Fenton,et al.  Plant responses to insect herbivory: interactions between photosynthesis, reactive oxygen species and hormonal signalling pathways. , 2012, Plant, cell & environment.

[37]  V. Singh,et al.  Trends in temperature, diurnal temperature range and sunshine duration in Northeast India , 2011 .

[38]  Michael R W Rands,et al.  Biodiversity Conservation: Challenges Beyond 2010 , 2010, Science.

[39]  S. Robinson,et al.  Food Security: The Challenge of Feeding 9 Billion People , 2010, Science.

[40]  R. Blackshaw,et al.  Effects of seeding date and canola species on seedling damage by flea beetles in three ecoregions , 2008 .

[41]  Shaukat Ali,et al.  Effect of Verticillium lecanii on biological characteristics and life table of Serangium japonicum (Coleoptera: Coccinellidae), a predator of whiteflies under laboratory conditions , 2008 .

[42]  Kevin E. Trenberth,et al.  The Impact of Climate Change and Variability on Heavy Precipitation, Floods, and Droughts , 2008 .

[43]  A. Nishikawa,et al.  Comparison of the glucosinolate-myrosinase systems among daikon (Raphanus sativus, Japanese white radish) varieties. , 2008, Journal of agricultural and food chemistry.

[44]  C. Parmesan Influences of species, latitudes and methodologies on estimates of phenological response to global warming , 2007 .

[45]  I. Subedi,et al.  Control of flea beetle, Phyllotreta nemorum L. (Coleoptera: Chrysomelidae) using locally available natural resources , 2006 .

[46]  H. Danks Key themes in the study of seasonal adaptations in insects II. Life-cycle patterns , 2006 .

[47]  E. Oerke Crop losses to pests , 2005, The Journal of Agricultural Science.

[48]  S. Turnipseed,et al.  A Multiyear, Large-Scale Comparison of Arthropod Populations on Commercially Managed Bt and Non-Bt Cotton Fields , 2005 .

[49]  R. Gutiérrez,et al.  Raphanus sativus (Radish): Their Chemistry and Biology , 2004, TheScientificWorldJournal.

[50]  T. M. Bezemer,et al.  Herbivory in global climate change research: direct effects of rising temperature on insect herbivores , 2002 .

[51]  Ian P. Woiwod,et al.  Climate change impacts on insect management and conservation in temperate regions: can they be predicted? , 2001 .

[52]  A. Singh,et al.  EFFECT OF ORGANIC FARMING TECHNOLOGY ON YIELD AND QUALITY OF RADISH (RAPHANUS SATIVUS L.) UNDER MID HILLS OF H.P. , 2001 .

[53]  J. H. Porter,et al.  The potential effects of climatic change on agricultural insect pests , 1991 .

[54]  M. Kaethner Keine Nebenwirkungen von Niempräparaten auf die aphidophagen PrädatorenChrysoperla carnea (Steph.) undCoccinella septempunctata L. , 1991, Anzeiger für Schädlingskunde, Pflanzenschutz, Umweltschutz.

[55]  R. Lamb EFFECTS OF FLEA BEETLES, PHYLLOTRETA SPP. (CHRYSOMELIDAE: COLEOPTERA), ON THE SURVIVAL, GROWTH, SEED YIELD AND QUALITY OF CANOLA, RAPE AND YELLOW MUSTARD , 1984, The Canadian Entomologist.

[56]  G. Uma,et al.  Evaluation of selected botanical insecticides against radish flea beetles (Phyllotreta chotanica Duv.) , 2020 .

[57]  S. Patra,et al.  Evaluation of insecticides against Helicoverpa armigera and Spodoptera litura in tomato , 2018 .

[58]  J. Terblanche,et al.  Physiological variation of insects in agricultural landscapes: potential impacts of climate change , 2015 .

[59]  Prabhjyot-Kaur,et al.  Global Warming and Its Possible Impact on Agriculture in India , 2014 .

[60]  G. Pant,et al.  Insect Pests of Cruciferous Vegetables and Their Management , 2014 .

[61]  M. I. Mollah,et al.  Effect of Insecticides on Lady Bird Beetle (Coleoptera: Coccinellidae) in Country Bean Field , 2013 .

[62]  Anita . Singh,et al.  Agricultural Insect Pest : Occurrence and Infestation Level in Agricultural Fields of Vadodara , Gujarat , 2012 .

[63]  V. Jindal,et al.  Insect pest problems and crop losses: changing trends. , 2010 .

[64]  Y. G. Prasad,et al.  Effects of Climate Change on Natural Control of Insect Pests , 2010 .

[65]  Andrew M. Liebhold,et al.  Population ecology of insect invasions and their management. , 2008, Annual review of entomology.

[66]  R. Merrill,et al.  Combined effects of climate and biotic interactions on the elevational range of a phytophagous insect. , 2008, The Journal of animal ecology.

[67]  M. Thungrabeab EFFECT OF ENTOMOPATHOGENIC FUNGI, Beauveria bassiana (BALSAM) AND Metarhizium anisopliae (METSCH) ON NON TARGET INSECTS , 2007 .

[68]  Sang Joon Kim,et al.  A Mathematical Theory of Communication , 2006 .

[69]  S. Singh Response of biofertilizers and pesticides on yield and quality of cabbage, radish and brinjal in vegetable-based rotation system , 2006 .

[70]  L. Dosdall,et al.  Emergence of overwintered and new generation adults of the crucifer flea beetle, Phyllotreta cruciferae (Goeze) (Coleoptera: Chrysomelidae) , 2006 .

[71]  I. Woiwod,et al.  REVIEW , 2004, Journal of Insect Conservation.

[72]  M. Kogan,et al.  Integrated pest management: historical perspectives and contemporary developments. , 1998, Annual review of entomology.

[73]  M. Cammell,et al.  Effects of climatic change on the population dynamics of crop pests , 1992 .

[74]  H Schmutterer,et al.  Properties and potential of natural pesticides from the neem tree, Azadirachta indica. , 1990, Annual review of entomology.

[75]  Robert H. Whittaker,et al.  Evolution of Species Diversity in Land Communities , 1977 .

[76]  H. V. Emden,et al.  Insect Stability and Diversity in Agro-Ecosystems , 1974 .

[77]  L. Bonnemaison Insect Pests of Crucifers and Their Control , 1965 .