Drone-Based Identification of Flood-Tolerant Maize via Multispectral Imaging: A Real-World Case Study DOI Creative Commons

Madison Mitchell,

Grace Sidberry,

Morgan Mathison

et al.

bioRxiv (Cold Spring Harbor Laboratory), Journal Year: 2024, Volume and Issue: unknown

Published: Nov. 28, 2024

Excess moisture (flooding, water logging, etc.) is a major source of crop damage causing catastrophic monetary losses to farmers around the world. Losses from excess are often more common and costly than those too little (i.e., drought). Extreme weather patterns predicted increase, increasing expected frequency events across Midwest. Despite its importance, studying impacts flooding in field challenging due unpredictability fields being rendered inaccessible during flooding. Here, we took advantage natural flood experiment examine responses, damage, recovery diverse maize hybrids. Using drones, monitored hybrids before, during, after examined spatial genetic components associated with post-flood survival.

Language: Английский

The Research Trends and Application Prospects of Waterlogging Tolerance in Garden Plants Through Bibliometric Analysis DOI Creative Commons
Bo Pan, Yaoyao Wang, Lijie Chen

et al.

Horticulturae, Journal Year: 2025, Volume and Issue: 11(2), P. 195 - 195

Published: Feb. 12, 2025

With the intensification of global climate change and urbanization, extreme rainfall urban flooding have become increasingly frequent, making flood tolerance garden plants a key issue in landscaping ecology. Identifying research progress development trends waterlogging plants, as well selecting waterlogging-tolerant species, is core strategy for advancing ecological development. This study employed Web Science database to conduct systematic search using subject, title, keyword criteria. After excluding irrelevant studies through full-text reviews, 164 articles were selected. Using bibliometric analysis, systematically reviewed relevant literature published over past 21 years on landscape both domestically internationally, analyzing hotspots, while summarizing physiological molecular responses flood-prone environments. The indicates significant differences among different species plants. main directions include morphology, physiology, biology, ecology, cultivation, selection, with biology emerging area recent years. Furthermore, context change, this identifies 50 flood-tolerant high value, proposes guidelines species. It concludes by discussing future potential applications these landscaping, sponge city construction, restoration.

Language: Английский

Citations

0
Drone-Based Identification of Flood-Tolerant Maize via Multispectral Imaging: A Real-World Case Study DOI Creative Commons

Madison Mitchell,

Grace Sidberry,

Morgan Mathison

et al.

bioRxiv (Cold Spring Harbor Laboratory), Journal Year: 2024, Volume and Issue: unknown

Published: Nov. 28, 2024

Excess moisture (flooding, water logging, etc.) is a major source of crop damage causing catastrophic monetary losses to farmers around the world. Losses from excess are often more common and costly than those too little (i.e., drought). Extreme weather patterns predicted increase, increasing expected frequency events across Midwest. Despite its importance, studying impacts flooding in field challenging due unpredictability fields being rendered inaccessible during flooding. Here, we took advantage natural flood experiment examine responses, damage, recovery diverse maize hybrids. Using drones, monitored hybrids before, during, after examined spatial genetic components associated with post-flood survival.

Language: Английский

Citations

0