1,1 diphenyl 2 picrylhydrazyl [1] |
1-Amino-Cyclopropane- 1-Carboxylic Acids [1] |
12 principle [1] |
16S rRNA [1] |
16S rRNA [1] |
2D layered structures [1] |
3-D beach profile [1] |
[BMIM]Cl [1] |
[HMIM]Cl [1] |
[OMIM[Cl [1] |
Abelmoschus esculentusL [1] |
Abiotic Stress [1] |
Absorption spectrophotometry [1] |
ABTS radical scavenging assay [1] |
abundance estimation [1] |
Academia [1] |
Accessibility [1] |
Accretion [1] |
acetic acid [1] |
Acid rich effluents [1] |
Acinetobacter baumannii [2] |
Activated carbon [2] |
Activated charcoal [2] |
Activated Sludge [1] |
Activated sludge [1] |
activated sludge [1] |
Activation Analysis [1] |
Active ingredients [1] |
Acyl homoserine lactone [1] |
Adsorbents, dyes [1] |
Adsorption [23] |
adsorption [2] |
Adsorption capacities [2] |
Adsorption experiment [1] |
adsorption isotherm [1] |
Adsorption isotherms [5] |
Adsorption Kinetics [1] |
Adsorption kinetics [2] |
adsorption kinetics [1] |
adsorption mechanism [1] |
adsorption�desorption [1] |
Adventitious rooting [1] |
aerobic [1] |
Aerobic digestions [1] |
aerosols [1] |
Agaricus arvensis [1] |
Agaricus arvensis extract [1] |
Agaricus campestris extract [1] |
Agaricus comtulus extract [1] |
Agaricus silvicola extract [1] |
age [1] |
Agricultural chemicals [1] |
agricultural crops [1] |
Agricultural Field [1] |
agricultural intensification [1] |
Agricultural land [1] |
Agricultural runoff [1] |
Agricultural soil [1] |
Agricultural waste [2] |
Agricultural wastes [1] |
Agriculture [3] |
agro-ecosystem [1] |
Agro-wastes [1] |
Agrochemicals [1] |
Agronomic practices [1] |
AHC technique [1] |
Air pollutants [2] |
Air pollution [1] |
air pollution [1] |
Air Quality [1] |
Air quality [2] |
air quality [1] |
air quality index (AQI) [1] |
Alaknanda River [1] |
Algae [2] |
Alginate [1] |
Alginic acid [1] |
aliphatic compound [1] |
alkaline phosphatase [1] |
Alkalinity [1] |
Allelopathy [1] |
alluvial plain [1] |
ALOS PALSAR [1] |
Amanita caesarea [1] |
Amanita caesarea extract [1] |
Amanita citrine extract [1] |
Amanita fulva extract [1] |
Amazon basin [1] |
Amazonia [2] |
Ambient air temperature [1] |
Amido amine derivative of alginic acid [1] |
amino acid [1] |
Ammoniphilus bacterial strain [1] |
Amphibians [1] |
Anaerobic fermentation [2] |
Anaerobic Growth [1] |
Anaerobiosis [1] |
Analysis [1] |
analytic hierarchy process [1] |
and statistical analysis [1] |
Animal [3] |
Animal disease [1] |
Animals [2] |
Anionic [1] |
Annual Effective Dose [1] |
Anode [1] |
Anoxic Conditions [1] |
Antarctica [1] |
anthropogenic impact [1] |
Antibacterial Activity [1] |
Antibiotics [1] |
Anticancer [1] |
Anticancer Agents [1] |
Antiinfective Agent [1] |
Antimicrobial Activity [1] |
Antioxidant [4] |
Antioxidant Activity [1] |
Antioxidant activity Ascomycetes [1] |
Antioxidant activity carbon nitrogen ratio [1] |
Antioxidant Assay Ascomycetes [1] |
Antioxidant enzymes [3] |
Antioxidants [2] |
antioxidants [1] |
AOD [1] |
APNR [1] |
Apoptosis [1] |
apoptosis [1] |
Aptamer [2] |
Aquatic macrophytes [1] |
aqueous solution [1] |
Araguaia Belt [1] |
Aravalli-Delhi Mobile Belt [1] |
Arctic circle [1] |
Aromatic compounds [1] |
Ars operon [1] |
Arsenic [4] |
arsenic [2] |
Arsenic adsorption [2] |
Arsenic toxicity [1] |
Artemisia scoparia [1] |
Arthrobacter [1] |
Arthrobacter Sp [1] |
Arthrobacter Tumbae Bacillus [1] |
Artificial neural networks (ANNs) [1] |
Artificial sweeteners [1] |
As(III) removal [1] |
Ascaris [1] |
Ascomycetes [1] |
Ascomycota [1] |
Ascorbic acid [2] |
ascorbic acid [1] |
Ash [2] |
Asia [2] |
Asian countries [1] |
Assam [1] |
assessment [1] |
Assessment And Monitoring [1] |
Assessment Method [1] |
Asymptomatic infection [1] |
Atmospheric carbon dioxide [1] |
Atomic absorption spectrophotometry [1] |
Atomic absorption spectroscopy [1] |
Attached growth [1] |
Autoantibody [1] |
Availability [1] |
Avian Pathogenic Escherichia Coli [1] |
Azo Dyes [1] |
Azo dyes [1] |
Bacillariophyta [1] |
Bacillus Pumilus [1] |
Bacillus Safensis [1] |
Bacillus Sp [1] |
Bacillus thruingiensis [1] |
Bacteria [2] |
Bacterial Growth [1] |
Bacterial isolate [1] |
bacterial l [1] |
Bacterial Strain [2] |
Bacteriology [1] |
bacteriology [1] |
Bacterium [3] |
bacterium [1] |
Bacterium Ide [1] |
Bacterium isolate [1] |
Bacterium isolation [1] |
Badrinath valley [1] |
Bagasse [1] |
Bakery industry sludge [1] |
Banana leaf [1] |
Bankline Prediction [1] |
Barak valley [1] |
Barak Valley, Northeast India [1] |
Barley Grains, [1] |
basalt [1] |
baseline threshold values [1] |
Baseline�threshold value [1] |
Basic Amenities [1] |
Basidiomycetes extract [1] |
basin evolution [1] |
Batch adsorption [1] |
Batch reactors [1] |
Bathinda [4] |
Bathinda. [1] |
batoids [2] |
Bayesian optimization [1] |
Beach morphodynamics [1] |
Beas [1] |
Benefit ratio [1] |
Beta Carotene [1] |
Beta carotene [1] |
Bhartiya cultural heritage [1] |
Bibliometric analysis [1] |
Bio-Concentration Factor [1] |
Bio-herbicide [1] |
Bio-oil [1] |
Bio-surfactants [1] |
bio-waste [1] |
Bioaccumulation [1] |
bioaccumulation [1] |
Biobutanol [1] |
Biocatalysis [1] |
biocatalysts [1] |
Biochar [6] |
biochar [3] |
biochar fly-ash composite and soil amelioration [1] |
Biochemical Oxygen Demand [2] |
biochemical oxygen demand [1] |
Biochemical properties [1] |
Biochemicals [1] |
Biodegradation [6] |
biodegradation [1] |
Biodiesel [1] |
Biodiesel production [1] |
Biodiversity [2] |
Bioenergy [1] |
Bioethanol [1] |
Biofilm [2] |
biofilm [1] |
Biofiltration [1] |
Biofuel [2] |
Biofuels [1] |
Biogas [1] |
Biogas technologies [1] |
Biogeochemical cycles [1] |
Biogeochemistry [1] |
Bioherbicide [1] |
Biohydrogen [1] |
Biohythane [2] |
bioindicator [1] |
Biological Marker [1] |
Biological Oxygen Demand Analysis [1] |
Biomarkers [1] |
Biomass [3] |
Biomass burning [1] |
Biomass conversion [1] |
Biomass washout [1] |
biomass; cocoon; composting; earthworm; effluent; industrial waste; manure; mineralization; population density; sludge; soil fauna; stocking density; waste treatment; Eisenia fetida; industrial waste; manure; sewage; soil; animal; biomass; bovine; food industry; growth, development and aging; industrial waste; manure; metabolism; Oligochaeta; population density; procedures; sewage; soil; waste management; Animals; Biomass; Cattle; Food Industry; Industrial Waste; Manure; Oligochaeta; Population [1] |
Biophotovoltaic cell [1] |
bioreactor [1] |
Bioreceptor [1] |
biorefinery [1] |
Bioremediation [5] |
bioremediation [2] |
Bioremediation Potentials [1] |
Biosensor [2] |
Biosensors [2] |
Biosorption [1] |
Biosurfactants [1] |
Biosynthesis [1] |
Biotechnology [1] |
Blue Phosphorene [1] |
Bluetongue [1] |
BOD [1] |
boehm titration [1] |
Brahmaputra River [1] |
Brahmaputra Valley [1] |
Brass contaminated soil [1] |
Brassicaceae [1] |
Brazilian Amazon rainforest [1] |
Breast Cancer [1] |
Breast Cancer Diagnosis [1] |
Brevundimonas diminuta MYS6 [1] |
Brevundimonas sp. [1] |
Bridging coordination [1] |
Brilliant green [3] |
brilliant green(BG) dye [1] |
Buffalo [2] |
Buffaloes [1] |
Buffer analysis [1] |
Building extraction [1] |
Butachlor [2] |
butyric acid [1] |
C and N mineralization [1] |
C/N ratio [1] |
C: N ratio [1] |
C:N ratio [2] |
CA-ANN [1] |
CA-Markov [3] |
Calcium [3] |
Calcium Carbonate [1] |
Calcium Compounds [1] |
calcrete morphology [1] |
Calcretes [1] |
Calix[4]arene; Quantum Dots; Absorbance; Fluorescence; PAHs; TEM; 1H NMR; FTIR [1] |
Calix[4]arenes [1] |
Calorimeters [1] |
Calorimetry [1] |
Canals [1] |
Cancer [1] |
cancer incidence [2] |
Cantharellus cibarius extract [1] |
CaO NP's [1] |
Carajás Mineral Province [2] |
Carajs National Forest [1] |
Caraj�s [2] |
Caraj�s mineral province [2] |
Caraj�s mountain range [1] |
Caraj�s province [1] |
carbene [1] |
Carbodiimides [1] |
Carbohydrate [2] |
carbohydrate [1] |
Carbohydrate analysis [1] |
Carbon electrode [1] |
Carbon electrodes [1] |
Carbon mineralization [1] |
carbon nanotubes [1] |
Carbon source [1] |
Carbon-neutral mechanisms [1] |
Carbonate leaching [1] |
Carbonyl indices [1] |
Carboxylation [1] |
Career opportunities [1] |
carotenoid [1] |
Caryophyllene [1] |
Case Report [1] |
Catalyst loadings [1] |
Catalysts [1] |
Cationic [1] |
Cationic dyes [2] |
CA�Markov model [1] |
Cd<sup>2+</sup> adsorbed modified dried orange peel powder [Cd@SiO<sub>2</sub>@DOPP] [1] |
CDM [1] |
CdSe quantum dots [1] |
Cell count [1] |
Cell Cycle [1] |
cell cycle [1] |
Cell death [1] |
Cell Free Dna [1] |
cell Viability [1] |
Cellular peroxidation [1] |
Cellulase [2] |
Cellulose [2] |
Central composite design [2] |
Central composites design [1] |
Cetyltrimethylammonium bromide (CTAB) [1] |
Challenges [1] |
Chandannagar [1] |
Channel shifting [1] |
Characterization [2] |
Charophytes [1] |
Chelate-complex mechanism [1] |
Chelation [1] |
Chemical Analysis [3] |
Chemical analysis [1] |
chemical characteristics [1] |
Chemical Composition [1] |
Chemical Oxygen Demand [2] |
Chemical oxygen demand [2] |
chemical oxygen demand [1] |
Chemical reaction [1] |
Chemical stability [1] |
Chemicals removal (water treatment) [1] |
Chemistry [6] |
Chemistry Techniques, Analytical [1] |
Chennai [1] |
Chhasra Formation [1] |
Chilika [1] |
China [1] |
Chipping [1] |
Chitosan [2] |
Chloride [1] |
Chlorophyll [1] |
Chlorophyll Content [1] |
Chlorpyrifos [6] |
Chlorpyrifos degradation [1] |
Chondrichthyan [1] |
Chorabari Lake [1] |
Chromium [1] |
chromium removal [1] |
Chromosomal aberrations [3] |
chromosomal aberrations [1] |
Churachandpur Mao Fault [1] |
CIA [1] |
Circular bioeconomy [1] |
Circular economy [1] |
Cities [1] |
Citrullus colocynthis [1] |
Citrus fruits [1] |
Classification [2] |
Clavicipitaceae [1] |
Clavicipitaceous [1] |
Clay mineral identification [1] |
clay mineralogy [1] |
Clay minerals [3] |
clay minerals [1] |
Climate change [4] |
climate change [3] |
Climate change adaptation [1] |
Climate change mitigation [1] |
Climate policy [1] |
Climate trends [1] |
Cluster Analysis [1] |
Cluster analysis [1] |
CMIP 6 [1] |
Co-contamination [1] |
Co-precipitation [2] |
co-precipitation/inclusion complexation method [1] |
CO<sub>2</sub> conversion [1] |
Coal ash [1] |
coastal nearshore [1] |
coastal shorelines [1] |
coastline [1] |
Coculture [1] |
COD [1] |
COD removal efficiency [1] |
coliform bacterium [1] |
Collective affirmation [1] |
Colonizing agent [1] |
color [1] |
Colubrinae [1] |
commercialization [1] |
commercially [1] |
compact city [1] |
Comparative Analysis [1] |
Comparative analysis [1] |
Comparative Study [1] |
Competition [1] |
Complementary Dna [1] |
composite biochar [1] |
Compositional data analysis [1] |
Compost [1] |
compost [2] |
Composting [3] |
composting [1] |
Compound-specific stable isotopes [1] |
concentration [1] |
Concentration (parameters) [1] |
Cone biomass of Picea smithiana [2] |
Congo red [1] |
Conocybe tenera extract [1] |
Conservation [1] |
Constructed wetlands [1] |
contamination [1] |
Controlled study [1] |
Conventional techniques [1] |
Conversion technologies [1] |
Copper [4] |
Copper compounds [1] |
Copper Concentration [1] |
Copper tolerant [1] |
Copper-tolerant bacteria [1] |
Copper; Brass industry effluent; rhizobacteria; root nodule endophytic bacteria; phytoextraction system; response surface methodology [1] |
Coprecipitation method [1] |
Cordyceps [3] |
Cordyceps Cicadae [2] |
Cordyceps Gracilis [1] |
Cordyceps gracilis [1] |
Cordyceps Sinc [1] |
Coronary heart diseases [1] |
Correlation [1] |
Correlation analysis [1] |
Corundum powder [1] |
Cosmogenic radionuclide [1] |
Cotton [2] |
Cotton boll activated carbon [1] |
Coulombic efficiency [3] |
Counter anions [1] |
Counter-ion effects [1] |
COVID-19 [8] |
COVID-19 lockdown [1] |
COVID-19 pandemic [2] |
Crimes [1] |
criteria pollutants [1] |
Crop residue [1] |
Crop Yield [1] |
Crop yield [1] |
Crops [1] |
Cruciferous vegetables [1] |
crusher [1] |
Cu adsorption [1] |
Cupric Ion [1] |
Current density [1] |
Cyanuric Chloride (CC) [1] |
Cyclization [1] |
Cynodon dactylon [1] |
Cyprus rotundus [1] |
cytochrome P450 [1] |
Cytology [1] |
Cytotoxicity [1] |
Dairy cattle [1] |
Dairy industry wastewater [3] |
Dairy wastewater [1] |
Darjeeling [1] |
Dealkylation [1] |
Debris covered [1] |
debris flow [1] |
Debris-covered glaciers [1] |
Debutoxymethylation [1] |
Dechlorination [1] |
decision-support system [1] |
Decorative stone [1] |
Deep aquifer [1] |
Defense mechanisms [1] |
Deforestation [2] |
Deglaciation [1] |
degradation [1] |
Dehydrogenation [1] |
Delhi [3] |
DEM differencing [1] |
Density Functional Theory [1] |
density measurement [1] |
Desorption [1] |
Developing countries [2] |
Development [1] |
Developmental cycle [1] |
Dhok Pathan Formation [1] |
Diagnosis [1] |
diatom [1] |
Diatoma vulgare [1] |
Differential scanning calorimetry [1] |
Digestion [1] |
Digital Elevation Model [1] |
Digital shoreline analysis system [1] |
Digital Shoreline Analysis System (DSAS) [1] |
Digital shoreline analysis system (DSAS) [1] |
Dioxins [1] |
disease spread [1] |
Diseases [1] |
Dissolution [1] |
Distillery wastewater [1] |
distributional justice [1] |
Distributive- Justice [1] |
Dna [1] |
DNA damage [1] |
DNA methyl transferase [2] |
Dna Sequence [1] |
Dna, Fungal [1] |
Dna, Ribosomal Spacer [1] |
DO [1] |
Domestic Waste [1] |
Dose rate [1] |
DPPH radical scavenging assay [2] |
Dried orange peel powder [DOPP] [1] |
drought risk [1] |
Drug delivery [2] |
Drug Effects [1] |
Drug Mixture [1] |
DSAS [3] |
DTPA extractable heavy metals [1] |
Duplex Specific Nuclease [1] |
Duplex-Specific Nuclease [1] |
dye [1] |
Dye removal [2] |
Dyes [5] |
E-waste [1] |
E-waste management [1] |
E. fetida [1] |
earth observation data [1] |
Earth observation dataset [1] |
earthquakes [1] |
Earthworm [2] |
Earthworm Eisenia fetida [1] |
Earthworm protein [1] |
Eastern Amazonia [1] |
Eastern Assam [1] |
EC50 [1] |
Echinochloa crus - galli [1] |
Echinochloa crus-galli [2] |
eco-sensitive zone [1] |
Ecological And Economic [1] |
Ecological indices [1] |
Ecological ramification [1] |
Ecological restoration [1] |
Ecology [2] |
ecology [1] |
Ecosystems [1] |
ecotourism [1] |
EDAC [1] |
edetic acid [1] |
EDJ (Enamel dentine junction) [1] |
EDTA [1] |
Education [1] |
Efficiency [1] |
Efficiency Measurement [1] |
Egg box complex [1] |
Eichhornia crassipes [1] |
Eisenia Fetida [2] |
Eisenia fetida [6] |
Electric conductance [1] |
Electrical Conductivity [1] |
Electricity [1] |
Electrochemical system [1] |
Electrode [2] |
Electrode modification [1] |
Electromagnetic field radiations [2] |
Electron microscopy [1] |
Emerging contaminants [2] |
Employment [1] |
employment [1] |
Encapsulation [2] |
Encapsulation efficiency [1] |
encouragements [1] |
Endocrine disruptors [1] |
Endophyte [1] |
Endophytes [1] |
endpoint rate (EPR) [1] |
Energy and economic analysis [1] |
Energy dispersive spectroscopy [1] |
Energy generation [1] |
Energy recovery [2] |
Engineered biochar [1] |
Enrichment [1] |
entomopathogenic organism [1] |
Entomopathogeny [1] |
Environment [2] |
environmental baseline [1] |
Environmental chemistry [1] |
Environmental contamination [2] |
Environmental degradation [1] |
Environmental governance [1] |
Environmental health [1] |
Environmental Impact
Assessment [1] |
Environmental Interpretation [1] |
Environmental management [1] |
Environmental Scientists [1] |
Environmental sustainability [1] |
Enzymatic pretreatment [1] |
Enzyme [2] |
Enzyme activity [3] |
enzyme activity [1] |
Enzyme immobilization [1] |
Enzyme kinetics [4] |
Enzymes [3] |
EPS [1] |
Equilibrium adsorption isotherms [1] |
Erosion [2] |
Erosion-Accretion [1] |
Erosional hotspots [1] |
Error analysis [1] |
Escherichia coli [1] |
Essential Oil [2] |
Essential oil [4] |
Essential Oil (EO) [1] |
Essential oil of Ocimum sanctum [1] |
Essential oils [1] |
Ethanol [1] |
Ethylenediaminetetraacetic acid [1] |
Eucalyptus [2] |
Eucalyptus tereticornis [2] |
eugenol and ?-caryophylle: ?-cyclodextrin [1] |
evapotranspiration [1] |
Exhalation rate [1] |
Exopolysaccharide [1] |
Experimental conditions [1] |
Experimental reactors [1] |
Extra-cellular polymeric substances [1] |
Facies [1] |
Fat [1] |
fat [1] |
Fate and transport [1] |
Fatty Acid [1] |
fatty acid [1] |
Fatty acid analysis [1] |
Fatty acids [1] |
Favonoid [1] |
Fazilka [1] |
Fe<sub>3</sub>O<sub>4</sub> nanoparticles [1] |
Fe<sub>3</sub>O<sub>4</sub>@Carbon nanocomposites [1] |
Feces [1] |
Fecundity [1] |
Feed stock [1] |
Feedstocks [2] |
feedstocks [1] |
Female [2] |
ferrite [1] |
Ferrites [1] |
Fertility [1] |
fertilizer application [1] |
Fertilizer industry wastewater [1] |
Fertilizers [2] |
Fiber [1] |
Fire points [1] |
Flame photometry [1] |
Flavonoid [1] |
flood damage [1] |
flood deposit [1] |
Flood plain [1] |
flood risk [1] |
flow [1] |
Flow path [1] |
flow velocity [1] |
Flower-shaped [1] |
Fluorescence [1] |
Fluorescence enhancement [1] |
Fluoride [2] |
fluoride [3] |
Fluoride adsorption [1] |
Fluoride enrichment [1] |
Fluoride removal [1] |
Fly Ash [1] |
Fly ash [3] |
fly-ash [1] |
FNR [1] |
fold belt [1] |
Folivore [1] |
Food Processing [1] |
Food processing wastes [2] |
Food protein content [1] |
Food Waste [1] |
forest fire [1] |
Forest soils [1] |
fossil record [1] |
Fossils [1] |
Fourier transform infrared spectroscopy [1] |
fourier transform infrared spectroscopy [1] |
Fourier Transform-Infrared Spectroscopy [1] |
fractionation [1] |
Free energy [2] |
Free Radical [1] |
Free radicals [2] |
frequency analysis [1] |
Freundlich isotherm model [1] |
Frustulia rhomboides [1] |
FTIR [1] |
Fuel Cell [1] |
Fuel cells [1] |
Fuller's earth [1] |
Fuller’s earth [1] |
Functional polymers [1] |
Fungal Dna [1] |
Fungal Extract [1] |
Fungal extract [1] |
fungal extract [1] |
Fungal polysaccharide [1] |
Fungi [1] |
fungus [1] |
Furans [1] |
future forecasting [1] |
G-quadruplex [2] |
Gangotri Glacier [1] |
Garhwal Himalayas [2] |
Garhwal-Himalaya [1] |
Garimpo [1] |
Gene [1] |
Gene amplification [1] |
Gene sequence [1] |
Genetics [1] |
Genotoxicity [3] |
Genus orbivirus [1] |
Geochemical background [3] |
Geochemical baseline [2] |
Geochemical compartments [1] |
geochemical mapping [1] |
geochemical processes [1] |
Geochemistry [3] |
geochemistry [1] |
Geogenic contamination [2] |
Geogenic enrichment [2] |
geogenic enrichment [2] |
geographic information system [1] |
Geographic Information Systems [1] |
geographical information system [1] |
Geography [1] |
geological mapping [1] |
geological survey [1] |
Geomorphic indices [1] |
Geomorphic units [1] |
Geoprocessing [1] |
Geospatial [2] |
geospatial [1] |
geospatial techniques [1] |
Geospatial Technology [1] |
Germination [1] |
GIS [8] |
Gis [1] |
glacial variability [1] |
Glaciation [1] |
Glacier [1] |
glacier ice-thickness [1] |
Glacier inventory [1] |
Glacier mapping [1] |
glacier recession [1] |
Glacier retreat [1] |
glacier retreat [1] |
Glacier terminus changes [1] |
Glacier thinning [1] |
Global scale [1] |
Glucose [1] |
glucose [1] |
Glycoprotein [1] |
GMO [1] |
Goat [1] |
Gold [1] |
Gomphonema geminatum [1] |
Gondwana [2] |
Google Earth Engine [1] |
grain size [1] |
granulites [1] |
graphene [1] |
Graphene oxide [2] |
Graphitic carbon nitride (g-C<sub>3</sub>N<sub>4</sub>) [1] |
Grasses [1] |
Green campus [1] |
green chemistry [1] |
Green fabricated nanoparticles [1] |
Green Park [1] |
Green spaces [1] |
Green synthesis [4] |
Green vegetable waste [1] |
Greenhouse gases [1] |
grinding and sieving [1] |
Ground Penetrating Radar (GPR) [1] |
Groundwater [11] |
groundwater [3] |
groundwater contamination [1] |
Groundwater potential [1] |
groundwater potential [1] |
Groundwater potential zone [1] |
Groundwater quality [1] |
groundwater-potential zones [1] |
Growth inhibition [1] |
Growth Rate [1] |
Growth, Respiratory Ability [1] |
Growth, Development And Aging [2] |
Gujarat [2] |
Gymnopilus junonius extract [1] |
Half-life [1] |
Harike [3] |
Harike Wetland [1] |
hazard management [1] |
HCHO [1] |
Health [1] |
health [1] |
health care [1] |
Health Hazard [1] |
Health hazards [1] |
Health risk [5] |
Health risk assessment [1] |
Health risks [2] |
health risks [2] |
Heavy Metal [2] |
Heavy metal [3] |
heavy metal [2] |
Heavy metal immobilization [1] |
Heavy metal ions [1] |
Heavy Metals [2] |
Heavy metals [10] |
heavy metals [4] |
Helianthus annuus [2] |
Helianthus annuus L. var. CO4 [1] |
Hemicellulose [1] |
Herbicide [1] |
herbicide [1] |
herbicides [1] |
Hexavalent Chromium [1] |
Hexavalent chromium [3] |
Hexavalent chromium removal [1] |
High resolution transmission electron microscopy [1] |
Himachal Pradesh [1] |
Himalaya [4] |
Himalayan and Karakoram (H�K) glaciers [1] |
Himalayan river [1] |
Himalayas [2] |
Historical geography [1] |
Holocene [2] |
homology [1] |
Hordeum Vulgare [1] |
Hot spot analysis [1] |
Hotspot [1] |
HPGe Detector [1] |
HRT [1] |
Human [1] |
human [1] |
Human Elephant Conflict [1] |
Human health effects [1] |
Human Rights [1] |
Humans [1] |
Humidity [1] |
humidity [1] |
Hybrid materials [1] |
Hybrid nanomaterial [1] |
Hydrocarbons [1] |
hydrochemical [1] |
Hydrochemical facies [1] |
Hydrochemistry [3] |
hydrochemistry [1] |
Hydrogen [1] |
Hydrogen production [1] |
Hydrogeochemical process [1] |
Hydrogeochemical survey [2] |
Hydrogeochemistry [1] |
Hydrological observatories [1] |
hydrology [1] |
Hydrolysis [1] |
Hydrothermal methods [1] |
Hydrothermal synthesis [1] |
Hydrothermally synthesized [1] |
Hydroxylation [1] |
Hygiene [1] |
Hygrocybe coccinea [1] |
Hygrocybe coccinea extract [1] |
Hygrocybe nivea extract [1] |
Hygrophorus pustulatus [1] |
Hyperparameters [1] |
Hypertension [1] |
Ice cliffs [1] |
Ice movement [1] |
Ice shelves [1] |
Ichnofossil [1] |
ICP-MS [1] |
Identification Method [1] |
illegal sand mining [1] |
Illite chemistry index (ICI) [1] |
Illite crystallinity (IC) [1] |
Image classification [1] |
immobilisation [1] |
Immobilization [5] |
Impedance [1] |
Imphal valley [3] |
Improved bio-tower technology [1] |
Incubation [1] |
Incubation time [1] |
Ind [1] |
India [17] |
Indian Judiciary [1] |
indigenous [1] |
Indo-Burmese arc [1] |
Indo-Gangetic Plains [1] |
Industrial effluent [1] |
industry [1] |
Industry wastes [1] |
Inflammation [1] |
Infrared Devices [1] |
infrastructure [1] |
Inhibitors [1] |
Inocybe splendens extract [1] |
Instrumentation [1] |
Inter Prismatic Matrix (IPM) [1] |
Inter-state elephant corridors and Inter-country elephant corridors [1] |
Intercellular communication [2] |
interglacial [1] |
interpolation of AQ parameters [1] |
Intracellular polysaccharide [1] |
Intraparticle diffusion models [2] |
Invasive [1] |
Inverse Distance Weighting (IDW) Interpolation. [1] |
Ion exchange [1] |
ion-exchange [1] |
Ionic balance [1] |
Ionic Liquid [2] |
Ionic liquid [1] |
Ionic species [1] |
Ions [1] |
IPS [1] |
Iron [4] |
Iron loading [2] |
Iron mines [1] |
iron mines [1] |
Iron nanoparticles [1] |
Iron oxide nanoparticles [1] |
iron-oxide nanoparticles [1] |
irrigation [1] |
irrigation indices [1] |
Irrigation Practices [1] |
irrigational indices [1] |
Isolate MYS1 [1] |
isolates [1] |
isolation [1] |
Isolation And Purification [1] |
Isotherm model [1] |
Isotherm modelling [2] |
Isotherms [7] |
Isotope composition [1] |
isotopes [1] |
Itacaiúnas River Basin [2] |
Itacai�nas River Watershed [1] |
Itacai�nas river watershed [2] |
Jalore [1] |
Jatropha Curcas oil [1] |
Jharkhand [1] |
Jorhat and Majuli region [1] |
Journal metrics [1] |
Kachchh [1] |
Kachchh Mainland Fault [1] |
Kaiser�Meyer�Olkin measure [1] |
kappa coefficient [1] |
Karakoram [2] |
Kernel Density Estimation [1] |
Kinetic study [1] |
Kinetics [14] |
Klebsiella pneumoniae [2] |
KNP [1] |
Kolkata metropolitan area [1] |
Kota [1] |
Kutch [6] |
Kutch Basin [1] |
labor policy [1] |
Laboratory conditions [1] |
Laccaria laccata extract [1] |
Laccase [3] |
Laccase enzymes [1] |
Laccases [1] |
Lactarius pubescens [1] |
Lactation [1] |
lactone [1] |
Lahaul [1] |
Lahaul Himalaya [1] |
lake ecosystem [1] |
Lake Khajjiar [1] |
lake pollution [1] |
Lala clamshell [1] |
land cover [1] |
Land Degradation [1] |
land surface [1] |
Land surface temperature [2] |
land use [1] |
Land use and Land cover [1] |
land use change [1] |
Land use land cover [2] |
Land use management [1] |
Land use/land cover [2] |
Land-cover [1] |
Land-use [1] |
Landsat [1] |
Landsat and Change detection [1] |
Landsat data [1] |
Landsat images [1] |
Landsat-8 [1] |
landscape evolution [1] |
Landslide Hazard Zonation [1] |
Langmuir adsorption model [1] |
Langmuir Isotherm [2] |
Langmuir isotherm [1] |
Last Glacial Maximum [1] |
Last glacial period [1] |
Late Triassic [2] |
Late Triassic period [1] |
late-Holocene climate [1] |
Laurasia [1] |
Law of retail gravitation [1] |
Leachate [3] |
Leaching [1] |
leaching [1] |
Lead adsorption [1] |
Leaf litter [1] |
Legislations [1] |
Legume [2] |
Lepiota leucothites [1] |
Lightning death [1] |
Lightning Imaging Sensor (LIS) [1] |
Lightning strike [1] |
Lignification [1] |
Lignin [1] |
Lignocellulose [1] |
lignocellulosic biomass [1] |
Lignocellulosic material [1] |
Limit of detection [1] |
Lipid [1] |
Lipid peroxidation [1] |
Liquid fertilizer [2] |
Literacy [1] |
Literacy rate [1] |
litho-stratigraphy [1] |
Little ice age [1] |
little ice age [1] |
lizard [1] |
Lockdown [1] |
lockdown [4] |
Log-ratio transformations [1] |
Logistic regression [1] |
Low-density polyethylene [1] |
Low-temperature hydrothermal methods [1] |
LS factor [1] |
Lsaria farinosa [1] |
Lsaria japonica [1] |
Lsaria sinclairii [1] |
Lsaria tenuipes [1] |
Ludhia [1] |
LULC [2] |
LULC change dynamics [1] |
Lycopene [2] |
Lysinibacillus fusiformis [1] |
Mabehavior change [1] |
Machine learning [1] |
machine learning [2] |
Macrophyte [1] |
Magnesiothermic-reduction process [1] |
Magnesium [2] |
Magnetic iron noparticles [1] |
Magnetic Iron oxide nanoparticles [2] |
Magnetic nanocomposites [1] |
Magnetism [1] |
Magnetite [1] |
Mahanadi [1] |
Maharashtra [2] |
Major rivers [1] |
mammal [1] |
Manganese [3] |
Manganese oxide [1] |
mangrove [1] |
Manipur Valley [1] |
Mann�Kendall [1] |
Mann�Kendall test [1] |
Manure [1] |
map [1] |
Mapping [3] |
Markazi province [1] |
Mass fragmentography [1] |
Mass trajectory [1] |
Mass transfer [2] |
Maturity [1] |
Maximum power density [1] |
Mechanical Property [1] |
Mechanism of action [1] |
Membrane biofouling [2] |
Membrane bioreactor [1] |
Membrane filtration [1] |
Membrane peroxidation [1] |
Membrane-less MEC [2] |
Mercury pollution [1] |
Metabolism [3] |
Metabolites [1] |
metabolites [1] |
Metal [1] |
Metal carboxylate [1] |
Metal nanoparticles [1] |
Metal occurrence [1] |
metal oxide [1] |
Metals [1] |
Meterological factors [1] |
Methane [3] |
Methylene Blue [1] |
Methylene blue [2] |
Methylene groups [1] |
MFC [1] |
MgO [1] |
Microbes [2] |
Microbial biomass [1] |
Microbial communities [1] |
Microbial Community [1] |
Microbial Electrolysis Cell [2] |
Microbial electrolysis cell [2] |
Microbial electrolysis cells [1] |
Microbial Fuel Cell [1] |
Microbial fuel cell [4] |
Microbial fuel cells [1] |
Microbiological Examination [1] |
Microbiological examination [1] |
Microbiological Techniques [1] |
Microbiology [1] |
Microbiome [1] |
Microcatchment-based geochemical mapping [1] |
Microcrystalline cellulose [1] |
Microfossils [1] |
Microorganisms [1] |
Microplastic pollution [1] |
Microplastics [1] |
Microrna [1] |
Microscopy [1] |
Microstructures [1] |
Microvertebrate [1] |
microvertebrates fossils [1] |
Microwave [1] |
middle Miocene [1] |
MIF technique [1] |
Milk [1] |
Mineral [1] |
Mineral salt media [1] |
Mineralization [1] |
Minerals [1] |
Mining [3] |
Miocene [5] |
miRNA [2] |
Mitosis [1] |
Mitotic index [2] |
MNDWI [1] |
Mobilization [1] |
modelling [1] |
Modification [1] |
Modified electrode [1] |
MODIS [2] |
Moisture [1] |
Molasses [1] |
molecular analysis [1] |
Molecular beacons [1] |
molecular beacons [1] |
Molecular modeling [1] |
Monitoring [1] |
monitoring [1] |
Monocrotophos [3] |
Monolayer adsorption [1] |
Monosaccharides [1] |
Monoterpenes [1] |
Morphometric analysis [1] |
Morphometry [1] |
Morphotypes [1] |
Mountain conservation [1] |
Mountain policy [1] |
Mpd gene [1] |
Mucosa [1] |
Multi-element [1] |
Multi-element analysis [1] |
Multi-metal systems [1] |
Multivariate analysis [2] |
Multivariate geostatistics [1] |
Multivariate statistical analysis [1] |
Multivariate statistics [1] |
Mumbai [1] |
Municipal Solid Waste [1] |
Municipal solid waste [1] |
Municipal solid waste (MSW) [1] |
Municipal solid waste compost [1] |
mutagen [1] |
mutation [1] |
Mycelium [1] |
n-alkanes [1] |
N-hexanoyl homoserine lactone [2] |
N-Methylacetoacetamide [1] |
NaCl [1] |
nano zerovalent iron (nZVI) [1] |
Nano-catalyst [1] |
Nano-fertilizers [1] |
Nano-herbicides [1] |
Nanoadsorbent [1] |
Nanobioadsorbent [1] |
Nanocellulose [1] |
Nanocomposites [6] |
Nanocrystals [1] |
Nanofiltration [1] |
Nanomaterial [1] |
Nanomaterials [4] |
nanomembrane [1] |
nanoparticle decorated
electrodes [2] |
Nanoparticles [8] |
Nanospheres [1] |
Nanostructured Materials [1] |
Nanotechnology [4] |
Naphthalene [1] |
national park [1] |
Native Bacteria [1] |
Natural hazards [1] |
Natural herbicide [1] |
Natural polymers [1] |
Natural products [1] |
Natural Radionuclides [1] |
natural water [1] |
Navicula tripunctata [1] |
NDVI [3] |
NDWI [1] |
NE India [1] |
near infrared [1] |
Negative ions [1] |
Neogene [1] |
Neoproterozoic [1] |
Neoselachian [1] |
new species [1] |
nickel [1] |
Nicking endonuclease [1] |
nicking endonuclease [1] |
Nitrate [2] |
nitrate [3] |
Nitric oxide [1] |
Nitrogen [3] |
Nitrogen functionalization [1] |
NO<sub>2</sub> [1] |
Non human [4] |
non-leafy and root vegetables [1] |
Non-Notified [1] |
north-east India [2] |
Northeast India [4] |
Notified [1] |
NPK [1] |
Nuclease [1] |
Nucleic Acids [1] |
Nucleotide sequence [1] |
nZVI [3] |
Obligate pathogen [1] |
Occupation [1] |
ocean earthquake [1] |
Odisha coast [1] |
Oil shale [1] |
Oligochaeta [2] |
Onion [1] |
Open access publication [1] |
Open science [1] |
Optical density [1] |
Optimization [2] |
orange peel extract [1] |
Orange peel waste (OPW) [1] |
Organic carbon [1] |
Organic Chemicals [1] |
Organic Compound [1] |
organic fertilizer; [1] |
Organic fertilizers [1] |
Organic loading rates [1] |
Organic manure [1] |
Organic Matter [1] |
organic matter [1] |
Organic pollutants [1] |
Organic solid wastes [1] |
Organic waste [1] |
Organic wastes [1] |
Organophosphate [1] |
organophosphate pesticides [1] |
Ornamental [1] |
OSL [1] |
Osmolality [1] |
Osteoderm [1] |
overlay analysis [1] |
oxic conditions [1] |
Oxidation [1] |
oxidation [1] |
Oxidative damage [2] |
Oxidative Stress [1] |
Oxidative stress [2] |
oxygen fugacity [1] |
Oxygenic photoautotrophs [1] |
P. sphenops [1] |
P53 [1] |
Palaeo environment [1] |
Palaeoecology [1] |
Palaeoenvironment [2] |
Palaeoenvironment. [1] |
paleo-environment [1] |
Paleo-geography [1] |
paleobiogeography [2] |
Paleoclimate [4] |
paleoclimate [2] |
paleoecology [1] |
Paleoenvironment [1] |
paleoenvironment [3] |
Paleogene [1] |
pandemic [1] |
Pandemics [1] |
Paper mulberry [1] |
Paper wastes [1] |
Parauapebas subbasin [1] |
parks [1] |
Parthenium [1] |
Participation [1] |
Particulate matter [1] |
Passivation [1] |
pathogen [1] |
Pathogenic bacterium [1] |
Pathogens [1] |
PBE [1] |
pCO<sub>2</sub> [1] |
peak discharge [1] |
Pear Millet [1] |
percentage of carbonate phase [1] |
Performance Assessment [1] |
peroxidase [1] |
Peroxidases [1] |
Perple_X [1] |
Persistence [1] |
Pesticide [2] |
Pesticide residues [1] |
Pesticides [5] |
pesticides [1] |
Petrochemicals [1] |
PH [1] |
pH [3] |
Pharmaceutical waste [1] |
Pharmaceuticals [1] |
Phaseolus [1] |
Phaseolus Vulgaris [1] |
Phenol [1] |
Phenolic moiety [1] |
Phenylalanine ammonia lyases [1] |
Phenylpropanoid pathway [1] |
Phosphorus [1] |
Photocatalysis [1] |
Photocatalytic [1] |
Photodegradation [1] |
photography [1] |
photolysis [1] |
Photosynthesis [1] |
Photosynthetic microbial fuel cells [1] |
Phreatic groundwater quality [1] |
Phthalates [1] |
Phylogeny [2] |
Physical activity [1] |
Physical characteristics [1] |
Physical chemistry [1] |
Physico - Chemical Parameters [1] |
Physico-chemical characterization [1] |
physico-chemical characterization [1] |
Physicochemical Property [1] |
Physicochemical property [1] |
physicochemical property [2] |
Physicochemical techniques [1] |
Physiochemical properties [1] |
Physiology [1] |
Phytoremediation [2] |
Phytosaur [1] |
Phytotoxicity [2] |
Phytoxicity [1] |
Pine cone [1] |
Pinjaur Dun [1] |
Pinnularia gibba [1] |
Pinnularia nobilis [1] |
Planned urban setups [1] |
Plant extract [1] |
Plant Growth Promotion [1] |
Plant growth-promoting bacteria [1] |
Plant invasion [1] |
Plant-based nanoadsorbents [1] |
Plant-microbe association [1] |
Plant-pathogen coevolution [1] |
Plant-wax biomarkers [1] |
Plants (botany) [1] |
Plastic [1] |
PM sources [1] |
PM10 [1] |
PM<sub>2.5</sub> [1] |
Pneumonia [1] |
Policy [1] |
policy [1] |
Pollen [1] |
Pollutant detection methods [1] |
Pollutant Removal [1] |
pollutant removal [1] |
pollutant transport [1] |
Pollution [1] |
Pollution remediation [1] |
polymer [1] |
Polymerase chain reaction [1] |
Polymers [1] |
Polynas [1] |
Polyphenyl oxidases [1] |
Polysaccharide [3] |
POPs [1] |
Population density [1] |
population density [1] |
Population growth [1] |
Post-emergent activity [1] |
Potassium [2] |
potato peel waste [1] |
Potentially toxic elements [4] |
potentially toxic elements [1] |
Power density [4] |
Power Generation [1] |
Pre-prints [1] |
Pre-satellite era [1] |
Pre-Treatment [1] |
Pre-treatment [1] |
Precipitation (chemical) [1] |
Prediction [1] |
prediction [1] |
Preparation technique [1] |
Pretreatment [2] |
Primary education [1] |
Primary productivity [1] |
Principal Component Analysis [1] |
Principal component analysis [1] |
Procedures [2] |
Process control [1] |
Process parameters [1] |
Protein [3] |
Protein content [1] |
Protein P19 [1] |
Proton abstraction [1] |
provenance [1] |
Provenances [1] |
Pseudo-second order model [2] |
Pseudo-second-order kinetic models [1] |
Pseudomonas [1] |
Pseudomonas nitroreducens [2] |
Pu [1] |
Public healthcare resource [1] |
pulp and paper industry [1] |
Punjab [11] |
Punjab [India] [2] |
Pyrolysis [2] |
QGIS [1] |
Quadratic model [1] |
quality [1] |
Quantification of microplastic [1] |
Quantum Dot [1] |
Quartz Surface Texture [1] |
Quaternary [1] |
Quaternary climate [1] |
Quaternary geology [1] |
Quorum quenching [4] |
quorum quenching [1] |
Quorum sensing [2] |
Radial Enamel(RE) [1] |
Radioactive waste vitrification [1] |
Radon [1] |
Rainfall [1] |
rainfall erosivity [1] |
Rajasthan [1] |
Rajkot city [1] |
Ramsar Site [1] |
Random search [1] |
range [1] |
rare earth element [1] |
Ravi Basin Glacier Inventory (RBGI) [1] |
Reactive Oxygen Species [1] |
Reasi and Backwardness. [1] |
Receptor [1] |
Recognition probes [1] |
recognition probes [1] |
Recombinant whole cell [1] |
Recovery [1] |
Recycling [3] |
Redox Cycling [1] |
Redox Mediators [1] |
Redox reactions [1] |
Reduction [1] |
Reforestation. [1] |
Regeneration [2] |
regeneration [1] |
Relative ion leakage [1] |
Relict Lake sediments [1] |
Remediation [2] |
remediation [1] |
Remediation. [1] |
Remote Sensing [2] |
Remote sensing [3] |
remote sensing [6] |
Remote sensing and GIS [1] |
Removal [1] |
Removal efficiency [1] |
Reoviridae [1] |
Reporter proteins [1] |
Reproductive growth stages [1] |
residue [1] |
Resilience plan [1] |
Resistance mechanism [1] |
Resource recovery [1] |
Respirable dust [1] |
Respiration rate [1] |
Response Surface Methodology [1] |
Response surface methodology [4] |
response surface methodology [3] |
Reusability [4] |
rhizoliths [1] |
Rhizosphere [2] |
Rhizospheric microorganisms [1] |
Rhodium [1] |
Ribosomal Spacer Dna [1] |
Rice [2] |
rice [2] |
Rice (Oryza sativa) [1] |
Rice husk [1] |
Rice husk biochar [1] |
Rice straws [1] |
rice yield [1] |
Risk assessment [2] |
river basin [1] |
River flow [1] |
river terrace [1] |
riverbank accretion [1] |
riverbank erosion [1] |
Rn<sup>222</sup> and Rn<sup>220</sup> [1] |
Rna [1] |
RNA 16S [1] |
rodents [1] |
Ropar and ngal [1] |
ROS accumulation [1] |
Rotation [1] |
Royal Geographical Society [1] |
Ruminant [1] |
Ruminant Excreta [1] |
Rural livelihoods [1] |
RUSLE [1] |
Saccharine [1] |
Saline Soil [1] |
saline water [1] |
Salinity [3] |
Salmonella sp [1] |
Salt strength [1] |
Salvia plebeia [1] |
sampling methodology [1] |
Sand [1] |
sand [1] |
Sand dunes [1] |
sandy loam [1] |
Sanitary pads [1] |
Sanitation [1] |
sanitation [1] |
Sanitization [1] |
SARS-CoV-2 [1] |
satellite imagery [1] |
Satellite images [1] |
satellite remote sensing [1] |
Satpura Basin [1] |
Saw dust [1] |
Scanning electron microscopy [5] |
SCE [1] |
Scientific enterprise [1] |
Scopus [1] |
SDGs [1] |
Sea Food [1] |
Seafood [1] |
seasonal variation [1] |
Seasonal Variation, [1] |
Sediment geochemistry [1] |
sediment phases [1] |
Sedimentary rock [1] |
Seed Germination [1] |
Seed germination [2] |
Selective Detection [1] |
Selenium [1] |
SEM [2] |
Semi-arid region [1] |
semi-arid soil [1] |
Semiconductor device [1] |
Semiconductor quantum dots [1] |
Sen estimator [1] |
Sensing [1] |
Sensing studies [1] |
Sentinel [1] |
Sentinel 2 [1] |
separations [1] |
Sequence analysis [1] |
Sequence Analysis, Dna [1] |
Sequential extraction [1] |
Sequential leaching [1] |
Sequestration [2] |
Serra dos Carajas [1] |
Serra dos carajas [1] |
Serum [1] |
Sewage [2] |
Sewage sludge [1] |
Shallow aquifer [1] |
Shared Socioeconomic Pathways (SSP) [1] |
Sharks [1] |
sharks [1] |
Sheep breeds [1] |
Shivalik region [1] |
Shoreline dynamicity [3] |
Siesta [1] |
Signal Amplifications [1] |
Signal Processing [1] |
Signals [1] |
Significant [1] |
Sikkim [1] |
Silica [1] |
Silica coated [1] |
Silica modified dried orange peel powder [SiO<sub>2</sub>@DOPP] [1] |
Silicated orange peel waste (SiO2@OPW) [1] |
Silver [1] |
Single and Ternary Dye System [1] |
Single extraction [1] |
Sirmur Group [1] |
Sivapithecus [1] |
Siwalik Group [1] |
SLE [1] |
slow pyrolysis [1] |
Sludge digestion [1] |
Slums [1] |
Slurry [1] |
SMART RnDuo [1] |
Snake [1] |
Snakes [1] |
Socio-economic [2] |
Sodic Soil [1] |
Sodium [1] |
Sodium alginate [1] |
Sodium Arsenate [1] |
Sodium bicarbonate [1] |
Soil [5] |
soil [1] |
Soil Amendment [1] |
Soil amendment [1] |
Soil analysis [1] |
Soil chemistry [1] |
Soil conditioners [1] |
Soil Conservation [1] |
Soil Enzymes [1] |
Soil geochemical mapping [2] |
soil moisture [1] |
soil property [1] |
Soil quality [1] |
Soil respiration rate [1] |
Soil Sample [1] |
Soil Surveys [1] |
soil test [1] |
soil texture [1] |
Soil-sediment-water system [1] |
Soils [2] |
Sol-gel method [1] |
Solar energy [1] |
Solar fuels [1] |
Solid Waste [1] |
solid waste [1] |
Solid wastes [2] |
solubilization [1] |
Solutions [3] |
solvent [1] |
Somatic cell [1] |
Sonication [1] |
Sore muzzle disease [1] |
Sorption [1] |
Source apportionment [1] |
Source-sink relationship [1] |
South Asia [1] |
Southeastern Amazon [5] |
Southeastern amazon [1] |
Spatial autocorrelation [1] |
spatial distribution [1] |
Spatio-function [1] |
spatiotemporal analysis [1] |
Spectral indices [1] |
Spectroscopic analysis [1] |
SPI [1] |
Spontaneous adsorption [1] |
SSNMR [1] |
Stabilized sand dunes [1] |
Staphylococcus sp [1] |
Statistical distribution [1] |
Stem [1] |
Stenotrophomonas [1] |
Stenotrophomonas sp. [1] |
Stober method [1] |
Stratigraphy [1] |
stream sediment [1] |
Stream sediments [1] |
stream water [1] |
Stress amelioration [2] |
Stripping (dyes) [2] |
Structural characterization [2] |
Structural degradation [1] |
Structural review [1] |
Sugar [1] |
Sugar recovery [1] |
Sugarcane [1] |
Sulfuric acid hydrolysis [1] |
sunflower stem carbon [2] |
Suoidea [1] |
Superoxide [1] |
Superoxide anion [1] |
superoxide dismutase [1] |
supervised classification [1] |
Supervised image classification [1] |
Support vector machine [1] |
Support vector machines (SVMs) [1] |
Supraglacial lakes [1] |
Supreme Courts [1] |
Surface displacement [1] |
Surface geochemistry [1] |
Surface interactions [1] |
Surface Properties [1] |
surface temperature [1] |
Surface water [1] |
surface water [1] |
Surface-modifi [1] |
Surfactant [2] |
Surgery [1] |
Survey of India [1] |
Suspended Load [1] |
Suspended solids [1] |
Sustainability [1] |
sustainability [2] |
Sustainable [1] |
Sustainable agriculture [4] |
sustainable city [1] |
sustainable development [1] |
Sustainable management [1] |
Sustainable release [1] |
Sustainable remediation [1] |
Sustainable technology [1] |
Sutlej [1] |
Svalbard [1] |
SW/GW interaction [1] |
SWAT [1] |
Swiss blue [1] |
Synthesis cost [1] |
Systematic Palaeontology [1] |
Tabellaria fenestrata [1] |
Tamdil Lake [1] |
Tamil Nadu [1] |
Tawi river [1] |
TBE [1] |
Technical Evaluation [1] |
technoeconomic aspect [1] |
tectonic setting [1] |
tectonics [2] |
Teesta River [1] |
Tehri Reservoir [1] |
TEM [1] |
Temperature [4] |
temperature [1] |
Terrace deposits [1] |
Textural Analysis [1] |
Theil�Sen�s slope [1] |
Theoretical values [1] |
Thermal [1] |
Thermal power plants [1] |
Thermo chemical process [1] |
Thermo-gravimetric [1] |
Thermochemical Conversion [1] |
Thermodynamic parameter [3] |
Thermodynamic studies [1] |
Thermodynamics [1] |
Thermoelectric power plants [1] |
Thermogravimetric analysis [2] |
thermogravimetric analysis [1] |
Thoron [1] |
Threats [1] |
thrust [1] |
Tiki Formation [3] |
time [1] |
TiO<sub>2</sub> [1] |
Topography [1] |
Total hazard quotient [1] |
Total Organic Carbon [1] |
Total suspended solid [1] |
Tourism [1] |
toxic [1] |
Toxicity [2] |
Trace element [3] |
Trace element bovine mastitis [1] |
Trace elements [3] |
trace metals [1] |
Transfer Factor [1] |
Transgenic [1] |
Transgression [1] |
Translocation [1] |
Transmission electron microscopy [1] |
Transport [1] |
transportation [1] |
Treatment technologies [1] |
trend [1] |
Trend analysis [1] |
trend analysis [1] |
Tributary glacier surge [1] |
Tropospheric ozone [1] |
TSS concentration [1] |
Tss removals [1] |
Tumor [1] |
UHI [1] |
Unclassified drug [2] |
unlockdown [1] |
Upland lakes [1] |
upland lakes [1] |
Upper Alaknanda Basin [1] |
Uranium [2] |
uranium [1] |
Uranium and fluoride [1] |
Uranium enrichment [1] |
Urban [2] |
urban [1] |
Urban blue space [1] |
Urban forest interfaces [1] |
Urban green infrastructure [1] |
Urban green space [1] |
Urban green space (UGS) [1] |
Urban green spaces [1] |
Urban green spaces (UGS) [1] |
Urban growth [1] |
Urban heat island [2] |
Urban sprawl [1] |
Urban sustainability [1] |
urban-rural migration [1] |
Uttarakhand [2] |
Vallesian crisis [1] |
Valorization [1] |
Vapour pressures [1] |
Vegetable [1] |
Vegetable and cereal crops [1] |
Vegetables [1] |
vegetables [1] |
vegetation health [1] |
Vegetative growth stages [1] |
Vermi-composting [1] |
Vermi-incorporated feed [1] |
Vermicompost [5] |
vermicompost [1] |
Vermicomposting [3] |
Vermicomposting process [1] |
Vermicomposts [2] |
Vermiculture [1] |
Vermiprotein [1] |
Vertebrates [1] |
Victoria blue B [1] |
Vietnamese Mekong Delta [1] |
Vigodi Fault [1] |
Village [1] |
Virus [1] |
Visible injury [1] |
Vitex negundo [1] |
Volumetric loading rate [1] |
vulnerability [1] |
Waste [1] |
Waste activated sludge [1] |
Waste activated sludges [1] |
Waste biomass [1] |
Waste Cotton Fabrics [1] |
Waste Management [2] |
Waste management [1] |
waste management [1] |
Waste management strategies [1] |
Waste paper [1] |
Waste Products [1] |
Waste treatment [1] |
waste treatment [2] |
Waste Water [1] |
waste water [1] |
Waste Water Management [1] |
Wastewater [4] |
wastewater [2] |
Wastewater treatment [2] |
wastewater treatment [1] |
Wastewater treatment plants [1] |
Wastewater Treatment, [1] |
Water [2] |
Water Crisis, [1] |
Water dynamics [1] |
Water quality [1] |
water quality [4] |
water quality comparison [1] |
Water Quality Index [1] |
Water quality index [1] |
water quality index [1] |
water regime [1] |
Water splitting [1] |
Water Treatment [1] |
Water treatment [1] |
Water-borne disease [1] |
Waterlogging [1] |
Watershed [1] |
weather conditions [1] |
weathering profile [1] |
Weed mass [1] |
Weeds [1] |
Weight loss [1] |
weightage sum overlay analysis [1] |
weighted linear regression (WLR) [1] |
Weights [1] |
West Bengal [1] |
Wetland [2] |
wetland [1] |
Wetland mapping [1] |
Wetlands [1] |
Wheat [2] |
Wheat crop residue [1] |
Wildlife Management [1] |
Wind speed [1] |
wind velocity [1] |
Workers [1] |
worldwide [1] |
Worm fecundity [1] |
X. helleri [1] |
Xizang [1] |
XRD [5] |
XRD analysis [1] |
XRF analysis [1] |
Xylene [1] |
Yeast [1] |
Young researchers [1] |
Zero-waste concept [1] |
zeta potential [1] |
Zinc [3] |
Zinc Ferrite [1] |
Zinc oxide [4] |
Zinc oxide nanoparticles [1] |
Zn(II) [1] |
ZnO [1] |
ZnO nanoflowers [1] |
ZnO nanoparticles [1] |
ZnO-GO nanocomposites [1] |
ZPNR [1] |
α-amylase [1] |
β-amylase [1] |