Nandita Mandal scite author profile

Nandita Mandal

4Publications

5Citation Statements Received

105Citation Statements Given

How they've been cited

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279

Affiliations

Indian Agricultural Research Institute, Indian Council of Agricultural Research

Publications

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Climate Change Impacts on Seed Production and Quality: Current Knowledge, Implications, and Mitigation Strategies

Maity

Paul

Lamichaney

et al. 2023

Seed Science and Technology

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Climate change is real and inevitable, incessantly threatening the terrestrial ecosystem and global food security. Although the impacts of climate change on crop yield and the environment have received much attention in recent years, there are few studies on its implications for the production of high-quality seeds that provide the basic input for food production. Seeds are the primary planting material for crop cultivation and carry most new agricultural technologies to the field. Climatic abnormalities occurring at harvest and during the post-harvest stages may not always severely impact seed yield but can reduce the morphological, physiological and biochemical quality, ultimately reducing the field performance and planting value of the seed lot. In our preliminary data mining that considered the first 30 species appearing in the search results, seed setting, seed yield and seed quality parameters under temperature, CO2 and drought stresses showed differential response patterns depending on the cotyledon number (monocots vs. dicots), breeding system (self- vs. cross-pollinated), life cycle (annual vs. perennial) and maturity time (seed setting in cooler vs. hotter months). The relative proportions of the 30 species showed that germination and seedling vigour are adversely affected more in dicots and self-pollinated annual species that set seeds in hotter months. Together, these impacts can potentially reduce the quantity and quality of seeds produced. Immediate attention and action are required to understand and mitigate the detrimental impacts of climate change on the production and supply of high-quality seeds. This review summarises the current knowledge on this aspect, predicts the future implications and suggests some potential mitigation strategies in the context of projected population growth, climate change and seed requirement at the global level.

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Current State and Prediction of Future Global Climate Change and Variability in Terms of CO2 Levels and Temperature

Adak¹,

Mandal²,

Mukhopadhyay³

et al. 2023

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Spectral characterization and severity assessment of rice blast disease using univariate and multivariate models

et al. 2023

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Rice is the staple food of more than half of the population of the world and India as well. One of the major constraints in rice production is frequent occurrence of pests and diseases and one of them is rice blast which often causes yield loss varying from 10 to 30%. Conventional approaches for disease assessment are time-consuming, expensive, and not real-time; alternately, sensor-based approach is rapid, non-invasive and can be scaled up in large areas with minimum time and effort. In the present study, hyperspectral remote sensing for the characterization and severity assessment of rice blast disease was exploited. Field experiments were conducted with 20 genotypes of rice having sensitive and resistant cultivars grown under upland and lowland conditions at Almora, Uttarakhand, India. The severity of the rice blast was graded from 0 to 9 in accordance to International Rice Research Institute (IRRI). Spectral observations in field were taken using a hand-held portable spectroradiometer in range of 350-2500 nm followed by spectral discrimination of different disease severity levels using Jeffires–Matusita (J-M) distance. Then, evaluation of 26 existing spectral indices (r≥0.8) was done corresponding to blast severity levels and linear regression prediction models were also developed. Further, the proposed ratio blast index (RBI) and normalized difference blast index (NDBI) were developed using all possible combinations of their correlations with severity level followed by their quantification to identify the best indices. Thereafter, multivariate models like support vector machine regression (SVM), partial least squares (PLS), random forest (RF), and multivariate adaptive regression spline (MARS) were also used to estimate blast severity. Jeffires–Matusita distance was separating almost all severity levels having values >1.92 except levels 4 and 5. The 26 prediction models were effective at predicting blast severity with R2 values from 0.48 to 0.85. The best developed spectral indices for rice blast were RBI (R1148, R1301) and NDBI (R1148, R1301) with R2 of 0.85 and 0.86, respectively. Among multivariate models, SVM was the best model with calibration R2=0.99; validation R2=0.94, RMSE=0.7, and RPD=4.10. The methodology developed paves way for early detection and large-scale monitoring and mapping using satellite remote sensors at farmers’ fields for developing better disease management options.

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Assessing rice blast disease severity through hyperspectral remote sensing

et al. 2022

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Remote sensing is being increasingly used in stress management in different agricultural practices. It is useful for real time analysis for crop stress which is not possible for visual observation alone. Rice blast caused by fungus Pyricularia Oryzae is a serious constrain in rice production in India. There is hardly any basic information available for spectral characteristics of rice blast disease for its real-time detection and management. Present study is to characterize spectral reflectance of blast affected rice in order to identify the sensitive spectral range. Disease severity of 10 different genotypes of rice was graded 0 to 9 based on the extent of host organ covered by symptom or lesion. Result shows that severely infected plant (score 9) have higher reflectance at visible region and lower reflectance at NIR region. Change in the reflectance for the infected plant as compare to the healthy plant was more pronounced in the VNIR, 550 to 760 nm and 1140 and 1300 nm having correlation coefficient above 0.6. The study of change in the reflectance with the change in wavelength (1st derivative) revealed that VNIR region have high correlation with the disease severity. Maximum rate of change value at red edge position (REP) is called as red edge value (REV) which has good relation with disease severity levels. Amplitude of the red edge peak decreases with the increase in severity levels. Amplitude of score 0 and 9 was 0.00929 and 0.002301, respectively for upland land condition whereas the amplitude of the score 0 and 9 was 0.010421 and 0.00193, respectively for upland land rice. This study identifies that VNIR and red edge region are sensitive for detecting rice blast, which could be utilized to aerial or satellite based monitoring blast affected rice cropping region.

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Nandita Mandal

Climate Change Impacts on Seed Production and Quality: Current Knowledge, Implications, and Mitigation Strategies

Current State and Prediction of Future Global Climate Change and Variability in Terms of CO2 Levels and Temperature

Spectral characterization and severity assessment of rice blast disease using univariate and multivariate models

Assessing rice blast disease severity through hyperspectral remote sensing

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