Within-field extrapolation away from a soil moisture probe using freely available satellite imagery and weather data

Bramley, R. G. V.; Perry, E. M.; Richetti, J.; Colaço, A. F.; Mowat, D. J.; Ratcliff, C. E. M.; Lawes, R. A.

doi:10.1007/s11119-024-10138-9

Cited by 3 publications

(1 citation statement)

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“…Studies have shown that adequate soil moisture, which can be affected by the level of humidity in the atmosphere, is essential for optimal wheat growth and yield. Bramley et al [45] emphasize the significance of soil moisture, influenced by climatic factors such as humidity, as the main factor affecting the potential crop production in wheat and barley fields. The coefficient for rainfall is −0.002 (p = 0.767) which indicates that for every unit increase in rainfall, the wheat yield is expected to decline by 0.002 t/ha, holding other variables constant.…”

Section: Regression Analysismentioning

confidence: 99%

Climate Trends and Wheat Yield in Punjab, Pakistan: Assessing the Change and Impact

Shah,

Wu,

Farid

et al. 2024

Sustainability

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Climate change has made weather patterns less predictable, making situations more challenging for farmers throughout the production process. This study investigates the impact of climatic variables (maximum and minimum temperature, rainfall, humidity at 8 AM and 5 PM) and fertilizer application on wheat production in Bahawalnagar district, a major wheat producing region of Punjab, Pakistan. The study utilizes the Mann–Kendall and multiple linear regression analysis to check climatic trends and identify the factors influencing wheat yield from 1991 to 2022. The study utilized a regression model to compare actual and predicted wheat yields. The results showed a decreasing trend in rainfall and an increasing trend in both maximum and minimum temperatures during the wheat growing season. Sen’s slope values for maximum temperature (0.037), minimum temperature (0.007), humidity at 8 AM (0.275), and humidity at 5 PM (0.167) indicate the direction and magnitude of trends. The regression model explained about 92% of the variance in the wheat yield. The regression analysis of humidity at both 8 AM (p = 0.001) and 5 PM (p = 0.001) shows a significant positive correlation with wheat yield. Fertilizer use exhibited a significant positive association with wheat yield (β = 9.58). Fertilizer application for wheat crops increased from 112.4 kg/ha in 1991 to 284.3 kg/ha in 2021. The regression model identifies that the average wheat yield loss from 1991 to 2022 is approximately 0.1208 t/ha per year because of the influence of climatic factors. The study findings underscore the importance of the utilization of adaptive agricultural practices that can ensure food security and improve agricultural sustainability in the region.

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Section: Regression Analysismentioning

confidence: 99%