TY - JOUR
T1 - Uav‐supported forest regeneration
T2 - Current trends, challenges and implications
AU - Mohan, Midhun
AU - Richardson, Gabriella
AU - Gopan, Gopika
AU - Aghai, Matthew Mehdi
AU - Bajaj, Shaurya
AU - Galgamuwa, G. A.Pabodha
AU - Vastaranta, Mikko
AU - Arachchige, Pavithra S.Pitumpe
AU - Amorós, Lot
AU - Corte, Ana Paula Dalla
AU - De‐miguel, Sergio
AU - Leite, Rodrigo Vieira
AU - Kganyago, Mahlatse
AU - Broadbent, Eben North
AU - Doaemo, Willie
AU - Shorab, Mohammed Abdullah Bin
AU - Cardil, Adrian
N1 - Publisher Copyright:
© 2021 by the authors. Licensee MDPI, Basel, Switzerland.
PY - 2021/7/1
Y1 - 2021/7/1
N2 - Replanting trees helps with avoiding desertification, reducing the chances of soil erosion and flooding, minimizing the risks of zoonotic disease outbreaks, and providing ecosystem services and livelihood to the indigenous people, in addition to sequestering carbon dioxide for mitigating climate change. Consequently, it is important to explore new methods and technologies that are aiming to upscale and fast‐track afforestation and reforestation (A/R) endeavors, given that many of the current tree planting strategies are not cost effective over large landscapes, and suffer from constraints associated with time, energy, manpower, and nursery‐based seedling production. UAV (unmanned aerial vehicle)‐supported seed sowing (UAVsSS) can promote rapid A/R in a safe, cost-effective, fast and environmentally friendly manner, if performed correctly, even in otherwise un-safe and/or inaccessible terrains, supplementing the overall manual planting efforts globally. In this study, we reviewed the recent literature on UAVsSS, to analyze the current status of the technology. Primary UAVsSS applications were found to be in areas of post‐wildfire reforestation, mangrove restoration, forest restoration after degradation, weed eradication, and desert greening. Nonetheless, low survival rates of the seeds, future forest diversity, weather limitations, financial constraints, and seed‐firing accuracy concerns were determined as major challenges to operationalization. Based on our literature survey and qualitative analysis, twelve recommendations—ranging from the need for publishing germination results to linking UAVsSS operations with carbon offset markets—are provided for the advancement of UAVsSS applications.
AB - Replanting trees helps with avoiding desertification, reducing the chances of soil erosion and flooding, minimizing the risks of zoonotic disease outbreaks, and providing ecosystem services and livelihood to the indigenous people, in addition to sequestering carbon dioxide for mitigating climate change. Consequently, it is important to explore new methods and technologies that are aiming to upscale and fast‐track afforestation and reforestation (A/R) endeavors, given that many of the current tree planting strategies are not cost effective over large landscapes, and suffer from constraints associated with time, energy, manpower, and nursery‐based seedling production. UAV (unmanned aerial vehicle)‐supported seed sowing (UAVsSS) can promote rapid A/R in a safe, cost-effective, fast and environmentally friendly manner, if performed correctly, even in otherwise un-safe and/or inaccessible terrains, supplementing the overall manual planting efforts globally. In this study, we reviewed the recent literature on UAVsSS, to analyze the current status of the technology. Primary UAVsSS applications were found to be in areas of post‐wildfire reforestation, mangrove restoration, forest restoration after degradation, weed eradication, and desert greening. Nonetheless, low survival rates of the seeds, future forest diversity, weather limitations, financial constraints, and seed‐firing accuracy concerns were determined as major challenges to operationalization. Based on our literature survey and qualitative analysis, twelve recommendations—ranging from the need for publishing germination results to linking UAVsSS operations with carbon offset markets—are provided for the advancement of UAVsSS applications.
KW - Afforestation and reforestation using UAVs
KW - Forestry applications of UAVs
KW - Planting trees with drones
KW - Seed pods
KW - Seed spraying drones
KW - Unmanned aerial system (UAS)
UR - http://www.scopus.com/inward/record.url?scp=85110244854&partnerID=8YFLogxK
U2 - 10.3390/rs13132596
DO - 10.3390/rs13132596
M3 - Review article
AN - SCOPUS:85110244854
SN - 2072-4292
VL - 13
JO - Remote Sensing
JF - Remote Sensing
IS - 13
M1 - 2596
ER -