TY - JOUR
T1 - Date palm cultivation
T2 - A review of soil and environmental conditions and future challenges
AU - Alotaibi, Khaled D.
AU - Alharbi, Hattan A.
AU - Yaish, Mahmoud W.
AU - Ahmed, Ibrahim
AU - Alharbi, Sulaiman Almwarai
AU - Alotaibi, Fahad
AU - Kuzyakov, Yakov
N1 - Funding Information:
This study was supported within the Date‐Palm Project by the Distinguished Scientist Fellowship Program (DSFP) of King Saud University, Riyadh, Saudi Arabia. It was also supported by the Strategic Academic Leadership Program “Priority 2030” of the Kazan Federal University, and by the RUDN University Strategic Academic Leadership Program, Russia. We thank Dr. Dmitry Khoroshaev for the preparation of Figure 2 .
Funding Information:
This study was funded by the Date‐Palm Project through the Distinguished Scientist Fellowship Program (DSFP) of King Saud University, Riyadh, Saudi Arabia. It was also funded by the Strategic Academic Leadership Program “Priority 2030” of the Kazan Federal University, and by the RUDN University Strategic Academic Leadership Program, Russia.
Publisher Copyright:
© 2023 John Wiley & Sons Ltd.
PY - 2023
Y1 - 2023
N2 - Date palm (Phoenix dactylifera L.) fruit is one of the ancient crops that have been cultivated for thousands of years in the arid regions of the Middle East and North Africa. Its nutritional and economic importance has extended the cultivation to other countries with suitable environmental conditions. Despite the large expansion in date palm cultivation and the associated improvement in its yield and quality over the last few decades, challenges remain in its cultivation and sustainability. Here, we review: (1) the current status of date palm cultivation, (2) the key environmental and soil-related factors influencing its cultivation and productivity, and (3) the challenges under global change in addition to assessing the future potentials for improvements and sustainability. The global production of date palm has increased by 18% during the last ten years, reaching 8.53 million tons, on a total area of 1.11 million ha. Water scarcity and salinity stresses are the major constraints affecting date palm productivity, which is a serious issue in arid regions, where water resources are becoming depleted and soil is becoming increasingly salinized due to limited rainfall, high evapotranspiration, and incorrect irrigation. Although date palm can tolerate salinity up to 12 dS m−1, accumulation of salts in soil strongly reduces the yield. The main cultivation areas are dominated by soils of sandy texture with high pH and a low capacity for water and nutrient retention. Organic fertilizers increase water and nutrient retention. There is a lack of long-term studies (e.g., ≥10 years) designed to monitor date palm cultivar responses to abiotic stresses as well as to nutrition and management practices. Future challenges facing date palm cultivation mainly include water shortages, extremely high temperatures, salinity, and soil degradation, as well as diseases and pests. The implementation of efficient management practices, including modern irrigation systems, selecting cultivars most suitable for the local environmental conditions, and increasing soil water and nutrient retention, help to sustain date palm cultivation and productivity.
AB - Date palm (Phoenix dactylifera L.) fruit is one of the ancient crops that have been cultivated for thousands of years in the arid regions of the Middle East and North Africa. Its nutritional and economic importance has extended the cultivation to other countries with suitable environmental conditions. Despite the large expansion in date palm cultivation and the associated improvement in its yield and quality over the last few decades, challenges remain in its cultivation and sustainability. Here, we review: (1) the current status of date palm cultivation, (2) the key environmental and soil-related factors influencing its cultivation and productivity, and (3) the challenges under global change in addition to assessing the future potentials for improvements and sustainability. The global production of date palm has increased by 18% during the last ten years, reaching 8.53 million tons, on a total area of 1.11 million ha. Water scarcity and salinity stresses are the major constraints affecting date palm productivity, which is a serious issue in arid regions, where water resources are becoming depleted and soil is becoming increasingly salinized due to limited rainfall, high evapotranspiration, and incorrect irrigation. Although date palm can tolerate salinity up to 12 dS m−1, accumulation of salts in soil strongly reduces the yield. The main cultivation areas are dominated by soils of sandy texture with high pH and a low capacity for water and nutrient retention. Organic fertilizers increase water and nutrient retention. There is a lack of long-term studies (e.g., ≥10 years) designed to monitor date palm cultivar responses to abiotic stresses as well as to nutrition and management practices. Future challenges facing date palm cultivation mainly include water shortages, extremely high temperatures, salinity, and soil degradation, as well as diseases and pests. The implementation of efficient management practices, including modern irrigation systems, selecting cultivars most suitable for the local environmental conditions, and increasing soil water and nutrient retention, help to sustain date palm cultivation and productivity.
KW - date palm
KW - drought stress
KW - environmental factors
KW - land use
KW - Phoenix dactylifera L
KW - productivity
KW - soil salinity and alkalinity
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U2 - 10.1002/ldr.4619
DO - 10.1002/ldr.4619
M3 - Review article
AN - SCOPUS:85149450991
SN - 1085-3278
JO - Land Degradation and Development
JF - Land Degradation and Development
ER -