Plants (Sep 2024)

Water Management Interventions, Organic Fertilization, and Harvest Time in Dry Land in the Biosaline Production of Cactus Pear

  • Tarcia Carielle Miranda Dantas Nunes,
  • Gherman Garcia Leal de Araújo,
  • Thieres George Freire da Silva,
  • Tadeu Vinhas Voltolini,
  • Glayciane Costa Gois,
  • Cleyton de Almeida Araújo,
  • Anderson de Moura Zanine,
  • Daniele de Jesus Ferreira,
  • Danillo Marte Pereira,
  • Francisco Naysson de Sousa Santos,
  • Henrique Nunes Parente,
  • Silvia Helena Nogueira Turco,
  • Michelle de Oliveira Maia Parente,
  • Fleming Sena Campos

DOI
https://doi.org/10.3390/plants13182540
Journal volume & issue
Vol. 13, no. 18
p. 2540

Abstract

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Brackish water can promote physicochemical changes in the soil. Aiming to mitigate the effect of excess salts in the soil, the use of organic matter promotes restructuring. The aim was to evaluate the productive and nutritional characteristics of cactus pear under different brackish water depths (ID) and levels of organic matter (OM). A factorial arrangement of 4 × 4 × 4 with four replications was utilized. Plots consisted of ID (0, 12, 20, and 28% reference evapotranspiration—ETo), and subplots were composed of OM levels (0, 15, 30, and 45 t/ha) and days after planting (DAP; 180, 270, 360, and 450 days). The growth, yield, and chemical composition of cactus pear were affected by ID and OM and/or by their interaction. The regular and increasing application of ID from 192 to 456 mm/year and a rainfall of 110 mm/year in cactus pear crops in biosaline systems improves the growth, freshness, dry matter yields, accumulation capacity per unit area, and chemical composition of cactus pear. The increase in OM up to the range from 30 to 45 Mg/ha linearly increases the agronomic performance of cactus pear. Biosaline systems with cactus pear should be adopted with the combined use of regular supplementary ID and OM, measuring at 304 mm/year and 45 Mg/ha, respectively.

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