Limiting water range: Crop responses related to in‐season soil water dynamics, weather conditions, and subsoil compaction

Abstract: The least limiting water range (LLWR) has been used as a soil structural quality indicator for identifying in‐season water dynamics, yet studies focusing on its use for detecting in‐season water stresses and their effect on crop response on severely compacted subsoils are scarce. The objectives of this study were, therefore, to examine the in‐season water dynamics on a tile‐drained soil with compacted subsoil in the light of two different approaches for calculating LLWR (standard LLWR by da Silva et al. [1994]… Show more

“…Understanding plant physiological responses to drought is a key aspect for agriculture in the current scenarios, since one of the most urgent problems of the present time are the combined effects and impacts of climate changes in the different biomes (Akman;Zhang;Ejeta, 2020). The imbalance triggered by adverse meteorological conditions such as alterations in the temperature patterns, humidity and precipitation are capable of promoting significant alterations in the water availability of a given region, an element that is key to agriculture (Moncada;Petersen;Munkholm, 2021). Recent studies report that water restrictions can decrease plants growth season and development, leading to decreased patterns of plant productivity (Ashraf et al, 2021).…”

Azospirillum Brasilense Innoculation Combined With Different Levels of Nitrogen Fertilization and Its Effects in the Grain Sorghum Subjected to Water Restriction

“…Understanding plant physiological responses to drought is a key aspect for agriculture in the current scenarios, since one of the most urgent problems of the present time are the combined effects and impacts of climate changes in the different biomes (Akman;Zhang;Ejeta, 2020). The imbalance triggered by adverse meteorological conditions such as alterations in the temperature patterns, humidity and precipitation are capable of promoting significant alterations in the water availability of a given region, an element that is key to agriculture (Moncada;Petersen;Munkholm, 2021). Recent studies report that water restrictions can decrease plants growth season and development, leading to decreased patterns of plant productivity (Ashraf et al, 2021).…”

Azospirillum Brasilense Innoculation Combined With Different Levels of Nitrogen Fertilization and Its Effects in the Grain Sorghum Subjected to Water Restriction

Soil compaction raises nitrous oxide emissions in managed agroecosystems. A review