TY - JOUR
T1 - Ecotype Impacts Agronomic and Nutritional Traits of Sarcocornia perennis under Saline Greenhouse Cultivation Conditions
AU - Fernandes, Eliana
AU - Trentin, Riccardo
AU - Rodrigues, Maria João
AU - Castañeda-Loaiza, Viana
AU - Pereira, Catarina
AU - Sisay, Tesfaye Asmare
AU - Standing, Dominic
AU - Sagi, Moshe
AU - Shpigel, Muki
AU - Custódio, Luísa
N1 - Publisher Copyright:
© 2025 American Chemical Society.
PY - 2025/1/1
Y1 - 2025/1/1
N2 - This study evaluated the effects of two Sarcocornia sp. ecotypes on the agronomic and nutritional traits of vegetatively propagated plants grown under different salinity levels. Phylogenetic analysis confirmed both as Sarcocornia perennis. Commercial rooting treatments significantly improved the cutting success. Productivity peaked at the first harvest, with ecotypes Sp_E1 and Sp_E2 reaching maximum yields at 22.6 and 15.8 g/L salinity, respectively. Productivity declined at higher salinity, especially in Sp_E1. Ecotype Sp_E2 had better regrowth and resilience under moderate salinity, making it more suitable for extended cultivation cycles. Both ecotypes were rich in moisture, ash, essential minerals, and fiber, offering nutritious low-fat vegetables, though their high sodium content suggests moderate intake in sodium-restricted diets. Antinutritional factors were detected only at the third harvest, highlighting the need for careful evaluation in long-term cultivation. Overall, S. perennis shows promise for commercial cultivation in saline environments, with ecotype Sp_E2 being the more resilient option.
AB - This study evaluated the effects of two Sarcocornia sp. ecotypes on the agronomic and nutritional traits of vegetatively propagated plants grown under different salinity levels. Phylogenetic analysis confirmed both as Sarcocornia perennis. Commercial rooting treatments significantly improved the cutting success. Productivity peaked at the first harvest, with ecotypes Sp_E1 and Sp_E2 reaching maximum yields at 22.6 and 15.8 g/L salinity, respectively. Productivity declined at higher salinity, especially in Sp_E1. Ecotype Sp_E2 had better regrowth and resilience under moderate salinity, making it more suitable for extended cultivation cycles. Both ecotypes were rich in moisture, ash, essential minerals, and fiber, offering nutritious low-fat vegetables, though their high sodium content suggests moderate intake in sodium-restricted diets. Antinutritional factors were detected only at the third harvest, highlighting the need for careful evaluation in long-term cultivation. Overall, S. perennis shows promise for commercial cultivation in saline environments, with ecotype Sp_E2 being the more resilient option.
KW - antinutrients
KW - halophytes
KW - integrated multitrophic aquaculture (IMTA) systems
KW - nutritional properties
KW - saline agriculture
KW - salinization
UR - https://www.scopus.com/pages/publications/105008716175
U2 - 10.1021/acsagscitech.4c00717
DO - 10.1021/acsagscitech.4c00717
M3 - Article
AN - SCOPUS:105008716175
SN - 2692-1952
JO - ACS Agricultural Science and Technology
JF - ACS Agricultural Science and Technology
ER -
