Evaluating Soil Degradation in Agricultural Soil with Ground-Penetrating Radar: A Systematic Review of Applications and Challenges DOI Creative Commons
Filipe Adão, Luís Pádua, Joaquim J. Sousa

и другие.

Agriculture, Год журнала: 2025, Номер 15(8), С. 852 - 852

Опубликована: Апрель 15, 2025

Soil degradation is a critical challenge to global agricultural sustainability, driven by intensive land use, unsustainable farming practices, and climate change. Conventional soil monitoring techniques often rely on invasive sampling methods, which can be labor-intensive, disruptive, limited in spatial coverage. In contrast, non-invasive geophysical techniques, particularly ground-penetrating radar, have gained attention as tools for assessing properties. However, an assessment of radar’s applications research—particularly detecting structural changes related degradation—remains undetermined. To address this issue, systematic literature review was conducted following the Preferred Reporting Items Systematic Reviews Meta-Analyses 2020 guidelines. A search across Scopus Web Science databases, well relevant articles study reference lists, up 31 December 2024. This process resulted 86 potentially studies, 24 met eligibility criteria were included final review. The analysis revealed that radar allows detection associated with tillage practices heavy machinery traffic lands, namely topsoil disintegration compaction, both are important indicators degradation. These variations reflected electrical permittivity reflectivity, above horizon. shifts lower water content, increased homogeneity, heightened wave reflectivity at upper boundary compacted soil. latter linked density contrasts waterlogging layer. Additionally, has demonstrated its potential mapping alterations preferential flow pathways, organic carbon distribution, identifying disruptions root systems due tillage, conditions affected excessive fertilization iron oxide-rich soils. Future research should focus refining methodologies improve ability quantify processes greater accuracy. particular, there need standardized experimental protocols evaluate effects monocultures fertility, assess impact acidity, integrate complementary remote sensing holistic approach health monitoring.

Язык: Английский

Knowledge-guided machine learning for improving crop yield projections of waterlogging effects under climate change DOI Creative Commons
Linchao Li, Qinsi He, Matthew Tom Harrison

и другие.

Resources Environment and Sustainability, Год журнала: 2024, Номер 19, С. 100185 - 100185

Опубликована: Дек. 10, 2024

Язык: Английский

Процитировано

4
A review of soil waterlogging impacts, mechanisms, and adaptive strategies DOI Creative Commons
Yusen Zhang, Xiaojuan Chen,

Shiying Geng

и другие.

Frontiers in Plant Science, Год журнала: 2025, Номер 16

Опубликована: Фев. 13, 2025

Waterlogging is a major abiotic stress affecting plant growth and productivity. Regardless of rainfall or irrigated environments, plants frequently face waterlogging, which may range from short-term to prolonged durations. Excessive precipitation soil moisture disrupt crop growth, not because the water itself but due oxygen deficiency caused by saturation. This lack triggers cascade detrimental effects. Once becomes saturated, depletion leads anaerobic respiration in roots, weakening their respiratory processes. impacts morphology, metabolism, often increasing ethylene production impairing vital physiological functions. Plants respond waterlogging altering morphological structures, energy hormone synthesis, signal transduction pathways. paper synthesizes findings previous studies systematically analyze effects on yield, regulation, transduction, adaptive responses while exploring mechanisms underlying tolerance waterlogging. For instance, reduces yield disrupts key biochemical processes, such as synthesis nutrient absorption, leading deficiencies essential nutrients like potassium calcium. Under waterlogged conditions, exhibit changes, including formation adventitious roots development aeration tissues enhance transport. review also highlighted effective strategies improve Examples include strengthening field management practices, applying exogenous hormones 6-benzylaminopurine (6-BA) γ-aminobutyric acid (GABA), overexpressing specific genes (e.g., ZmEREB180 , HvERF2.11 RAP2.6L ), modifying root architecture. Lastly, we discuss future challenges propose directions for advancing research this field.

Язык: Английский

Процитировано

0
Dire need for quantification of environmental impacts associated with breeding climate-resilient crops DOI Creative Commons

Chunhu Wang,

Matthew Tom Harrison,

De Li Liu

и другие.

Agricultural Systems, Год журнала: 2025, Номер 227, С. 104352 - 104352

Опубликована: Апрель 16, 2025

Язык: Английский

Процитировано

0
Evaluating Soil Degradation in Agricultural Soil with Ground-Penetrating Radar: A Systematic Review of Applications and Challenges DOI Creative Commons
Filipe Adão, Luís Pádua, Joaquim J. Sousa

и другие.

Agriculture, Год журнала: 2025, Номер 15(8), С. 852 - 852

Опубликована: Апрель 15, 2025

Soil degradation is a critical challenge to global agricultural sustainability, driven by intensive land use, unsustainable farming practices, and climate change. Conventional soil monitoring techniques often rely on invasive sampling methods, which can be labor-intensive, disruptive, limited in spatial coverage. In contrast, non-invasive geophysical techniques, particularly ground-penetrating radar, have gained attention as tools for assessing properties. However, an assessment of radar’s applications research—particularly detecting structural changes related degradation—remains undetermined. To address this issue, systematic literature review was conducted following the Preferred Reporting Items Systematic Reviews Meta-Analyses 2020 guidelines. A search across Scopus Web Science databases, well relevant articles study reference lists, up 31 December 2024. This process resulted 86 potentially studies, 24 met eligibility criteria were included final review. The analysis revealed that radar allows detection associated with tillage practices heavy machinery traffic lands, namely topsoil disintegration compaction, both are important indicators degradation. These variations reflected electrical permittivity reflectivity, above horizon. shifts lower water content, increased homogeneity, heightened wave reflectivity at upper boundary compacted soil. latter linked density contrasts waterlogging layer. Additionally, has demonstrated its potential mapping alterations preferential flow pathways, organic carbon distribution, identifying disruptions root systems due tillage, conditions affected excessive fertilization iron oxide-rich soils. Future research should focus refining methodologies improve ability quantify processes greater accuracy. particular, there need standardized experimental protocols evaluate effects monocultures fertility, assess impact acidity, integrate complementary remote sensing holistic approach health monitoring.

Язык: Английский

Процитировано

0