Dry-Matter Allocation and Nutrient Uptake Dynamic in Pepper Plant Irrigated with Recycled Water by Different Nitrogen and Potassium Rate

As a consequence of increasing water demand, lack of natural water resources, and use of high amounts of fertilizers in the greenhouse crops in arid and semi-arid areas, the use of reclaimed municipal wastewaters is a valuable option, although the knowledge of plant nutritional requirements becomes...

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Published in:Communications in Soil Science and Plant Analysis 2013, Vol.44 (1-4), p.758-766
Main Authors: Contreras, Juana I, López, Jose G, Lao, Maria T, Eymar, Enrique, Segura, Maria L
Format: Article
Language:English
Subjects:
Agronomy. Soil science and plant productions
Biological and medical sciences
calcium
Capsicum annuum
dry matter accumulation
Fertigation
fertilizer rates
Fertilizers
flowering
fruiting
Fundamental and applied biological sciences. Psychology
greenhouse
greenhouses
harvest date
Loam soils
magnesium
mineral fertilizers
municipal wastewater
nitrogen
NK fertilizer efficiency
nutrient requirements
nutrient uptake
phosphorus
Potassium
sand-mulch soil
sandy loam soils
seedlings
semiarid zones
Soil science
Soil sciences
sweet peppers
vegetative growth
water resources
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Summary:As a consequence of increasing water demand, lack of natural water resources, and use of high amounts of fertilizers in the greenhouse crops in arid and semi-arid areas, the use of reclaimed municipal wastewaters is a valuable option, although the knowledge of plant nutritional requirements becomes more important to avoid imbalances caused by the nutrients present in reclaimed wastewater and to attain efficient nutrient use. An experiment was conducted with greenhouse-grown sweet pepper (Capsicum annuum L. var. Aifos) on a sand-mulched sandy loam soil and fertigation with recycled municipal wastewater and inorganic fertilizer treatments. Five treatments were applied: control with no nitrogen (N) or potassium (K) supplied (N₀K₀) and four different doses of N and K as the mean elements with possible imbalances: N₁K₁, N₁K₁.₅, N₁.₅K₁, and N₁.₅K₁.₅. N₁K₁was the recommended rate under local conditions (125 kg N ha⁻¹ and 193 kg K ha⁻¹). Eight plants per treatment were collected at five growth stages (0, 56, 84, 113, and 155 days after the seedling transplant, DAT). Dry matter (DM) and N, phosphorus (P), K, calcium (Ca), and magnesium (Mg) concentrations in fruit, leaf, stem, and pruning wastes were measured for each sampling date. For all treatments, the period of largest extraction of nutrient by plant occurred from 113 to 155 DAT, which coincides with the greatest accumulation of dry matter. Plant nutrient distribution showed that fruit is the largest sink of N, K, and P. The NK levels showed no effect on DM and nutrient uptake in the periods of vegetative growth, fruiting, and fruit growth. Nutrient uptakes by the plant were not affected by NK level applied. The NK rates could be lowered significantly without reducing DM and nutrient total uptake by plant during vegetative growth, flowering, and early fruit development periods, when using reclaimed municipal wastewater. The fertigation with greater rates of N and K for the harvest period can be considered as an adequate and sustainable procedure to grow greenhouse pepper.
ISSN:1532-2416
0010-3624
1532-2416
1532-4133
DOI:10.1080/00103624.2013.748761