Cultivar-Specific Responses of Tomato Essential Oils to Tomato Red Spider Mite (Tetranychus evansi): Implications for Pest Management

The dataset contains comprehensive experimental data and analytical results from a study conducted to explore the interaction between tomato essential oils and the tomato red spider mite (T. evansi). The study involved essential oils extracted from seven distinct tomato accessions (Solanum lycopersicum L.), namely accessions 1 (money maker), 13 (marglobe), 51 (PI 134417), 162 (JKUAT 22/202183), 182 (JKUAT 19), 428 (LA 2185), and 460 (LO 3279). The dataset encompasses the following components: Essential Oil Extraction Data: Details of the steam distillation process used to extract essential oils from each tomato accession, including extraction time and yield. Spider Mite Response Data: Results from Y-tube olfactometer and glass slide bioassays measuring the response of T. evansi to essential oils from different accessions. Responses include attraction, repulsion, or neutrality. Gas Chromatography/Mass Spectrometry (GC/MS) Analysis: Analytical data presenting the chemical composition of volatile compounds released by the essential oils. Quantitative and qualitative variations among accessions are documented, highlighting key compounds influencing mite behavior. Statistical Analysis: Statistical tests conducted to assess significant differences in mite responses to various essential oil concentrations and accessions. Visualizations: Graphs, charts, and figures representing mite behavior responses, essential oil composition variations, and concentration-related effects. The dataset contributes valuable information to the field of natural pest management and plant-arthropod interactions. Researchers, agronomists, and entomologists interested in understanding the potential of essential oils for pest control and the importance of phytochemical diversity in pest behavior modulation will find this dataset beneficial for further analysis and validation. By accessing this dataset, researchers can delve into the intricate relationship between tomato essential oils and the behavior of the tomato red spider mite, paving the way for innovative approaches to mitigate pest damage and enhance crop productivity. License: The dataset is made available under the Creative Commons Attribution 4.0 International License.The dataset contains comprehensive experimental data and analytical results from a study conducted to explore the interaction between tomato essential oils and the tomato red spider mite (T. evansi). The study involved essential oils extracted from seven distinct tomato accessions (Solanum lycopersicum L.), namely accessions 1 (money maker), 13 (marglobe), 51 (PI 134417), 162 (JKUAT 22/202183), 182 (JKUAT 19), 428 (LA 2185), and 460 (LO 3279). The dataset encompasses the following components: Essential Oil Extraction Data: Details of the steam distillation process used to extract essential oils from each tomato accession, including extraction time and yield. Spider Mite Response Data: Results from Y-tube olfactometer and glass slide bioassays measuring the response of T. evansi to essential oils from different accessions. Responses include attraction, repulsion, or neutrality. Gas Chromatography/Mass Spectrometry (GC/MS) Analysis: Analytical data presenting the chemical composition of volatile compounds released by the essential oils. Quantitative and qualitative variations among accessions are documented, highlighting key compounds influencing mite behavior. Statistical Analysis: Statistical tests conducted to assess significant differences in mite responses to various essential oil concentrations and accessions. Visualizations: Graphs, charts, and figures representing mite behavior responses, essential oil composition variations, and concentration-related effects. The dataset contributes valuable information to the field of natural pest management and plant-arthropod interactions. Researchers, agronomists, and entomologists interested in understanding the potential of essential oils for pest control and the importance of phytochemical diversity in pest behavior modulation will find this dataset beneficial for further analysis and validation. By accessing this dataset, researchers can delve into the intricate relationship between tomato essential oils and the behavior of the tomato red spider mite, paving the way for innovative approaches to mitigate pest damage and enhance crop productivity. License: The dataset is made available under the Creative Commons Attribution 4.0 International License.The dataset contains comprehensive experimental data and analytical results from a study conducted to explore the interaction between tomato essential oils and the tomato red spider mite (T. evansi). The study involved essential oils extracted from seven distinct tomato accessions (Solanum lycopersicum L.), namely accessions 1 (money maker), 13 (marglobe), 51 (PI 134417), 162 (JKUAT 22/202183), 182 (JKUAT 19), 428 (LA 2185), and 460 (LO 3279). The dataset encompasses the following components: Essential Oil Extraction Data: Details of the steam distillation process used to extract essential oils from each tomato accession, including extraction time and yield. Spider Mite Response Data: Results from Y-tube olfactometer and glass slide bioassays measuring the response of T. evansi to essential oils from different accessions. Responses include attraction, repulsion, or neutrality. Gas Chromatography/Mass Spectrometry (GC/MS) Analysis: Analytical data presenting the chemical composition of volatile compounds released by the essential oils. Quantitative and qualitative variations among accessions are documented, highlighting key compounds influencing mite behavior. Statistical Analysis: Statistical tests conducted to assess significant differences in mite responses to various essential oil concentrations and accessions. Visualizations: Graphs, charts, and figures representing mite behavior responses, essential oil composition variations, and concentration-related effects. The dataset contributes valuable information to the field of natural pest management and plant-arthropod interactions. Researchers, agronomists, and entomologists interested in understanding the potential of essential oils for pest control and the importance of phytochemical diversity in pest behavior modulation will find this dataset beneficial for further analysis and validation. By accessing this dataset, researchers can delve into the intricate relationship between tomato essential oils and the behavior of the tomato red spider mite, paving the way for innovative approaches to mitigate pest damage and enhance crop productivity. License: The dataset is made available under the Creative Commons Attribution 4.0 International License.The dataset contains comprehensive experimental data and analytical results from a study conducted to explore the interaction between tomato essential oils and the tomato red spider mite (T. evansi). The study involved essential oils extracted from seven distinct tomato accessions (Solanum lycopersicum L.), namely accessions 1 (money maker), 13 (marglobe), 51 (PI 134417), 162 (JKUAT 22/202183), 182 (JKUAT 19), 428 (LA 2185), and 460 (LO 3279). The dataset encompasses the following components: Essential Oil Extraction Data: Details of the steam distillation process used to extract essential oils from each tomato accession, including extraction time and yield. Spider Mite Response Data: Results from Y-tube olfactometer and glass slide bioassays measuring the response of T. evansi to essential oils from different accessions. Responses include attraction, repulsion, or neutrality. Gas Chromatography/Mass Spectrometry (GC/MS) Analysis: Analytical data presenting the chemical composition of volatile compounds released by the essential oils. Quantitative and qualitative variations among accessions are documented, highlighting key compounds influencing mite behavior. Statistical Analysis: Statistical tests conducted to assess significant differences in mite responses to various essential oil concentrations and accessions. Visualizations: Graphs, charts, and figures representing mite behavior responses, essential oil composition variations, and concentration-related effects. The dataset contributes valuable information to the field of natural pest management and plant-arthropod interactions. Researchers, agronomists, and entomologists interested in understanding the potential of essential oils for pest control and the importance of phytochemical diversity in pest behavior modulation will find this dataset beneficial for further analysis and validation. By accessing this dataset, researchers can delve into the intricate relationship between tomato essential oils and the behavior of the tomato red spider mite, paving the way for innovative approaches to mitigate pest damage and enhance crop productivity. License: The dataset is made available under the Creative Commons Attribution 4.0 International License.The dataset contains comprehensive experimental data and analytical results from a study conducted to explore the interaction between tomato essential oils and the tomato red spider mite (T. evansi). The study involved essential oils extracted from seven distinct tomato accessions (Solanum lycopersicum L.), namely accessions 1 (money maker), 13 (marglobe), 51 (PI 134417), 162 (JKUAT 22/202183), 182 (JKUAT 19), 428 (LA 2185), and 460 (LO 3279). The dataset encompasses the following components: Essential Oil Extraction Data: Details of the steam distillation process used to extract essential oils from each tomato accession, including extraction time and yield. Spider Mite Response Data: Results from Y-tube olfactometer and glass slide bioassays measuring the response of T. evansi to essential oils from different accessions. Responses include attraction, repulsion, or neutrality. Gas Chromatography/Mass Spectrometry (GC/MS) Analysis: Analytical data presenting the chemical composition of volatile compounds released by the essential oils. Quantitative and qualitative variations among accessions are documented, highlighting key compounds influencing mite behavior. Statistical Analysis: Statistical tests conducted to assess significant differences in mite responses to various essential oil concentrations and accessions. Visualizations: Graphs, charts, and figures representing mite behavior responses, essential oil composition variations, and concentration-related effects. The dataset contributes valuable information to the field of natural pest management and plant-arthropod interactions. Researchers, agronomists, and entomologists interested in understanding the potential of essential oils for pest control and the importance of phytochemical diversity in pest behavior modulation will find this dataset beneficial for further analysis and validation. By accessing this dataset, researchers can delve into the intricate relationship between tomato essential oils and the behavior of the tomato red spider mite, paving the way for innovative approaches to mitigate pest damage and enhance crop productivity. License: The dataset is made available under the Creative Commons Attribution 4.0 International License.The dataset contains comprehensive experimental data and analytical results from a study conducted to explore the interaction between tomato essential oils and the tomato red spider mite (T. evansi). The study involved essential oils extracted from seven distinct tomato accessions (Solanum lycopersicum L.), namely accessions 1 (money maker), 13 (marglobe), 51 (PI 134417), 162 (JKUAT 22/202183), 182 (JKUAT 19), 428 (LA 2185), and 460 (LO 3279). The dataset encompasses the following components: Essential Oil Extraction Data: Details of the steam distillation process used to extract essential oils from each tomato accession, including extraction time and yield. Spider Mite Response Data: Results from Y-tube olfactometer and glass slide bioassays measuring the response of T. evansi to essential oils from different accessions. Responses include attraction, repulsion, or neutrality. Gas Chromatography/Mass Spectrometry (GC/MS) Analysis: Analytical data presenting the chemical composition of volatile compounds released by the essential oils. Quantitative and qualitative variations among accessions are documented, highlighting key compounds influencing mite behavior. Statistical Analysis: Statistical tests conducted to assess significant differences in mite responses to various essential oil concentrations and accessions. Visualizations: Graphs, charts, and figures representing mite behavior responses, essential oil composition variations, and concentration-related effects. The dataset contributes valuable information to the field of natural pest management and plant-arthropod interactions. Researchers, agronomists, and entomologists interested in understanding the potential of essential oils for pest control and the importance of phytochemical diversity in pest behavior modulation will find this dataset beneficial for further analysis and validation. By accessing this dataset, researchers can delve into the intricate relationship between tomato essential oils and the behavior of the tomato red spider mite, paving the way for innovative approaches to mitigate pest damage and enhance crop productivity. License: The dataset is made available under the Creative Commons Attribution 4.0 International License.The dataset contains comprehensive experimental data and analytical results from a study conducted to explore the interaction between tomato essential oils and the tomato red spider mite (T. evansi). The study involved essential oils extracted from seven distinct tomato accessions (Solanum lycopersicum L.), namely accessions 1 (money maker), 13 (marglobe), 51 (PI 134417), 162 (JKUAT 22/202183), 182 (JKUAT 19), 428 (LA 2185), and 460 (LO 3279). The dataset encompasses the following components: Essential Oil Extraction Data: Details of the steam distillation process used to extract essential oils from each tomato accession, including extraction time and yield. Spider Mite Response Data: Results from Y-tube olfactometer and glass slide bioassays measuring the response of T. evansi to essential oils from different accessions. Responses include attraction, repulsion, or neutrality. Gas Chromatography/Mass Spectrometry (GC/MS) Analysis: Analytical data presenting the chemical composition of volatile compounds released by the essential oils. Quantitative and qualitative variations among accessions are documented, highlighting key compounds influencing mite behavior. Statistical Analysis: Statistical tests conducted to assess significant differences in mite responses to various essential oil concentrations and accessions. Visualizations: Graphs, charts, and figures representing mite behavior responses, essential oil composition variations, and concentration-related effects. The dataset contributes valuable information to the field of natural pest management and plant-arthropod interactions. Researchers, agronomists, and entomologists interested in understanding the potential of essential oils for pest control and the importance of phytochemical diversity in pest behavior modulation will find this dataset beneficial for further analysis and validation. By accessing this dataset, researchers can delve into the intricate relationship between tomato essential oils and the behavior of the tomato red spider mite, paving the way for innovative approaches to mitigate pest damage and enhance crop productivity. License: The dataset is made available under the Creative Commons Attribution 4.0 International License.The dataset contains comprehensive experimental data and analytical results from a study conducted to explore the interaction between tomato essential oils and the tomato red spider mite (T. evansi). The study involved essential oils extracted from seven distinct tomato accessions (Solanum lycopersicum L.), namely accessions 1 (money maker), 13 (marglobe), 51 (PI 134417), 162 (JKUAT 22/202183), 182 (JKUAT 19), 428 (LA 2185), and 460 (LO 3279). The dataset encompasses the following components: Essential Oil Extraction Data: Details of the steam distillation process used to extract essential oils from each tomato accession, including extraction time and yield. Spider Mite Response Data: Results from Y-tube olfactometer and glass slide bioassays measuring the response of T. evansi to essential oils from different accessions. Responses include attraction, repulsion, or neutrality. Gas Chromatography/Mass Spectrometry (GC/MS) Analysis: Analytical data presenting the chemical composition of volatile compounds released by the essential oils. Quantitative and qualitative variations among accessions are documented, highlighting key compounds influencing mite behavior. Statistical Analysis: Statistical tests conducted to assess significant differences in mite responses to various essential oil concentrations and accessions. Visualizations: Graphs, charts, and figures representing mite behavior responses, essential oil composition variations, and concentration-related effects. The dataset contributes valuable information to the field of natural pest management and plant-arthropod interactions. Researchers, agronomists, and entomologists interested in understanding the potential of essential oils for pest control and the importance of phytochemical diversity in pest behavior modulation will find this dataset beneficial for further analysis and validation. By accessing this dataset, researchers can delve into the intricate relationship between tomato essential oils and the behavior of the tomato red spider mite, paving the way for innovative approaches to mitigate pest damage and enhance crop productivity.