Evaluating the spatiotemporal dynamics of agrometeorological droughts in semi-arid Gwayi agroecosystems (1990–2020) using multiple indices

[1]  Q. Leclère,et al.  Benefits of Mann–Kendall trend analysis for vibration-based condition monitoring , 2024, Mechanical Systems and Signal Processing.

[2]  Théogène Habumugisha,et al.  Investigation of the Historical Trends and Variability of Rainfall Patterns during the March–May Season in Rwanda , 2024, Atmosphere.

[3]  G. Hewa,et al.  Multi-Method Comparative Analysis of Hydroclimatic Trends and Variability in Dry Creek Catchment, South Australia , 2024, Earth Systems and Environment.

[4]  Jitendra Rajput,et al.  Trend and change-point analyses of meteorological variables using Mann–Kendall family tests and innovative trend assessment techniques in New Bhupania command (India) , 2024, Journal of Water and Climate Change.

[5]  A. Kurban,et al.  Spatiotemporal Analysis of Drought Characteristics and Their Impact on Vegetation and Crop Production in Rwanda , 2024, Remote. Sens..

[6]  Omvir Singh,et al.  Comparison of meteorological, hydrological and agricultural droughts for developing a composite drought index over semi-arid Banas River Basin of India , 2024, Stochastic Environmental Research and Risk Assessment.

[7]  A. Abadi,et al.  Existing Challenges and Opportunities for Advancing Drought and Health Research. , 2024, Current environmental health reports.

[8]  Qingsuo Wang,et al.  Grain yield and water productivity of winter wheat controlled by irrigation regime and manure substitution in the North China Plain , 2024, Agricultural Water Management.

[9]  S. Bararkhanpour Ahmadi,et al.  Evaluation of TerraClimate gridded data in investigating the changes of reference evapotranspiration in different climates of Iran , 2024, Journal of Hydrology: Regional Studies.

[10]  M. Tanarhte,et al.  Severe droughts in North Africa: A review of drivers, impacts and management , 2024, Earth-Science Reviews.

[11]  A. V. van Loon,et al.  Prolonged drought periods over the last four decades increase flood intensity in southern Africa. , 2024, The Science of the total environment.

[12]  J. Kihara,et al.  Climate change awareness and adaptation strategies by smallholder farmers in semi-arid areas of Zimbabwe , 2024, International Journal of Agricultural Sustainability.

[13]  Magnus Jirström,et al.  A decade of maize yield gap studies in sub-Saharan Africa: how are farm-level factors considered? , 2023, International Journal of Agricultural Sustainability.

[14]  C. Ibebuchi,et al.  Circulation Pattern Controls of Summer Temperature Anomalies in Southern Africa , 2023, Advances in Atmospheric Sciences.

[15]  M. Mohsin,et al.  Probabilistic modelling of interarrival time of drought for different operational drought indices used in Pakistan , 2023, International Journal of Climatology.

[16]  F. Wambura Investigating the influences of climate change on drought in a small data-scarce river catchment , 2023, Journal of Water and Climate Change.

[17]  K. Olagunju,et al.  Climate change and variability in sub-Saharan Africa: A systematic review of trends and impacts on agriculture , 2023, Journal of Cleaner Production.

[18]  G. Dalle,et al.  Temporal climate conditions and spatial drought patterns across rangelands in pastoral areas of West Guji and Borana zones, Southern Ethiopia , 2023, Pastoralism.

[19]  M. Hanewinkel,et al.  Robust management strategies promoting ecological resilience and economic efficiency of a mixed conifer-broadleaf forest in Southwest Germany under the risk of severe drought , 2023, Ecological Economics.

[20]  O. Katipoğlu Prediction of Streamflow Drought Index for Short-Term Hydrological Drought in the Semi-Arid Yesilirmak Basin Using Wavelet Transform and Artificial Intelligence Techniques , 2023, Sustainability.

[21]  N. Mpofu,et al.  Assessment and characterisation of hydrometeorological droughts in the Upper Mzingwane sub-catchment of Zimbabwe , 2023, Natural Hazards.

[22]  Kaniz Fatima,et al.  Analysis of Temperature Variability, Trends and Prediction in the Karachi Region of Pakistan Using ARIMA Models , 2022, Atmosphere.

[23]  Jiquan Zhang,et al.  Dynamic Evaluation of Agricultural Drought Hazard in Northeast China Based on Coupled Multi-Source Data , 2022, Remote. Sens..

[24]  G. Ahammed,et al.  Combined Organic Fertilizer and Straw Return Enhanced Summer Maize Productivity and Optimized Soil Nitrate–N distribution in Rainfed Summer Maize–Winter Wheat Rotation on the Southeast Loess Plateau , 2022, Journal of Soil Science and Plant Nutrition.

[25]  Narayanan Natarajan,et al.  An assessment methodology for drought severity and vulnerability using precipitation-based indices for the arid, semi-arid and humid districts of Tamil Nadu, India , 2022, Water Supply.

[26]  Francis Dakyaga,et al.  Trends, impacts, and local responses to drought stress in Diamare Division, Northern Cameroon , 2022, World Development Sustainability.

[27]  G. Feyisa,et al.  Temporal and spatial characteristics of drought, future changes and possible drivers over Upper Awash Basin, Ethiopia, using SPI and SPEI , 2022, Environment, Development and Sustainability.

[28]  Q. Tang,et al.  Wetting trend in Northwest China reversed by warmer temperature and drier air , 2022, Journal of Hydrology.

[29]  Girma Asefa Bogale,et al.  Drought vulnerability and impacts of climate change on livestock production and productivity in different agro-Ecological zones of Ethiopia , 2022, Journal of Applied Animal Research.

[30]  S. Adnan,et al.  Long-term trends in climate parameters and multiple indices for drought monitoring over Pakistan , 2022, Meteorology and Atmospheric Physics.

[31]  S. Sharafi,et al.  Spatial and temporal analysis of drought in various climates across Iran using the Standardized Precipitation Index (SPI) , 2022, Arabian Journal of Geosciences.

[32]  T. Dube,et al.  Fine-scale multi-temporal and spatial analysis of agricultural drought in agro-ecological regions of Zimbabwe , 2022, Geomatics, Natural Hazards and Risk.

[33]  M. H. Afshar,et al.  Global spatiotemporal consistency between meteorological and soil moisture drought indices , 2022, Agricultural and Forest Meteorology.

[34]  L. Melsen,et al.  A geography of drought indices: mismatch between indicators of drought and its impacts on water and food securities , 2022, Natural Hazards and Earth System Sciences.

[35]  Tao Zhou,et al.  Improving the drought monitoring capability of VHI at the global scale via ensemble indices for various vegetation types from 2001 to 2018 , 2022, Weather and Climate Extremes.

[36]  DEEPA B. KAMBLE,et al.  Drought assessment for kharif rice using standardized precipitation index (SPI) and vegetation condition index (VCI) , 2021, Journal of Agrometeorology.

[37]  Oshneck Mupepi,et al.  Spatio-temporal dynamics of drought in Zimbabwe between 1990 and 2020: a review , 2021, Spatial Information Research.

[38]  S. Cobbina,et al.  Climate Change, Land, Water, and Food Security: Perspectives From Sub-Saharan Africa , 2021, Frontiers in Sustainable Food Systems.

[39]  Consolata A. Muganda,et al.  Modeling Eects of Climatic Variables on Tea Production in Kenya Using Linear Regression Model with Serially Correlated Errors , 2021 .

[40]  Ismail Rakip Karas,et al.  A review on change detection method and accuracy assessment for land use land cover , 2021 .

[41]  D. Yewhalaw,et al.  Effects of rainfall, temperature and topography on malaria incidence in elimination targeted district of Ethiopia , 2021, Malaria journal.

[42]  Shahina Tariq,et al.  Evaluation of a composite drought index to identify seasonal drought and its associated atmospheric dynamics in Northern Punjab, Pakistan , 2021 .

[43]  T. Abebe Time Series Analysis of Monthly Average Temperature and Rainfall Using Seasonal ARIMA Model (in Case of Ambo Area, Ethiopia) , 2020 .

[44]  C. Karavitis,et al.  Drought Characteristics Assessment in Europe over the Past 50 Years , 2020, Water Resources Management.

[45]  T. Mushore,et al.  Characterisation of wet and dry summer seasons and their spatial modes of variability over Zimbabwe , 2020 .

[46]  M. Chauhan,et al.  Applicability of SPI and RDI for forthcoming drought events: a non-parametric trend and one way ANOVA approach , 2020 .

[47]  Muhammad Amin,et al.  Assessing Meteorological and Agricultural Drought in Chitral Kabul River Basin Using Multiple Drought Indices , 2020, Remote. Sens..

[48]  A. Islam,et al.  A comprehensive statistical assessment of drought indices to monitor drought status in Bangladesh , 2020, Arabian Journal of Geosciences.

[49]  L. Gimeno,et al.  Trends and Extremes of Drought Episodes in Vietnam Sub-Regions during 1980–2017 at Different Timescales , 2020 .

[50]  J. Okeyo,et al.  Spatio-temporal characterisation of droughts using selected indices in Upper Tana River watershed, Kenya , 2020 .

[51]  M. Hagenlocher,et al.  Drought Risk to Agricultural Systems in Zimbabwe: A Spatial Analysis of Hazard, Exposure, and Vulnerability , 2020, Sustainability.

[52]  Tobias Landmann,et al.  A Spatially Transferable Drought Hazard and Drought Risk Modeling Approach Based on Remote Sensing Data , 2020, Remote. Sens..

[53]  M. S. Grey Accessing seasonal weather forecasts and drought prediction information for rural households in Chirumhanzu district, Zimbabwe , 2019, Jamba.

[54]  Chuanhao Wu,et al.  Is Southwest China drying or wetting? Spatiotemporal patterns and potential causes , 2019, Theoretical and Applied Climatology.

[55]  Lifeng Guo,et al.  Spatio-Temporal Analysis of Vegetation Dynamics as a Response to Climate Variability and Drought Patterns in the Semiarid Region, Eritrea , 2019, Remote. Sens..

[56]  Jia Li,et al.  Dynamic Evaluation of Ecological Vulnerability in a Lake Watershed Based on RS and GIS Technology , 2019, Polish Journal of Environmental Studies.

[57]  N. I. Sinthumule,et al.  Participation in Community-Based Solid Waste Management in Nkulumane Suburb, Bulawayo, Zimbabwe , 2019, Resources.

[58]  P. Kenabatho,et al.  Analysis of long term drought severity characteristics and trends across semiarid Botswana using two drought indices , 2018, Atmospheric Research.

[59]  V. García-Santos,et al.  Comparison of Three Methods for Estimating Land Surface Temperature from Landsat 8-TIRS Sensor Data , 2018, Remote. Sens..

[60]  Reuben Sebego,et al.  Analysis of the long-term agricultural drought onset, cessation, duration, frequency, severity and spatial extent using Vegetation Health Index (VHI) in Raya and its environs, Northern Ethiopia , 2018, Environmental Systems Research.

[61]  Ivan Bamweyana,et al.  Spatially explicit modelling of extreme weather and climate events hot spots for cumulative climate change in Uganda , 2018 .

[62]  J. Abatzoglou,et al.  TerraClimate, a high-resolution global dataset of monthly climate and climatic water balance from 1958–2015 , 2018, Scientific Data.

[63]  Dheeraj Kumar,et al.  Retrieval of land surface temperature (LST) from landsat TM6 and TIRS data by single channel radiative transfer algorithm using satellite and ground-based inputs , 2017, Int. J. Appl. Earth Obs. Geoinformation.

[64]  Babak Farjad,et al.  Impact of climate change on the severity, duration, and frequency of drought in a semi-arid agricultural basin , 2015, Geoenvironmental Disasters.

[65]  Adlyn Syahirah Zulcafli,et al.  Statistical comparison of SPEI – 1 month and SPEI – 3 month: Enhancing consistency in drought assessment , 2024, AIP Conference Proceedings.

[66]  S. Aksoy,et al.  COMPARISON OF LANDSAT AND MODIS DERIVED VEGETATION HEALTH INDICES FOR DROUGHT MONITORING USING GOOGLE EARTH ENGINE PLATFORM , 2022, International Symposium on Applied Geoinformatics 2021.