YIELD COMPARISON AND EFFICIENT USE OF NITROGEN IN TWO AQUAPONIC SYSTEMS

Autores/as

DOI:

https://doi.org/10.47163/agrociencia.v59i7.3332

Palabras clave:

Lactuca sativa L., Oreochromis niloticus L., nitrates, ammonium, nitrites, leaf area index.

Resumen

The fundamental principle of aquaponics is based on the nitrogen cycle, where fish waste ammonium (NH₄⁺) is transformed into nitrites and nitrates, which are absorbed by plants. However, when the pH is greater than 7, NH₄⁺ becomes ammonia (NH₃), which can be harmful to fish. In this regard, it was proposed to evaluate the effectiveness of two aquaponic systems consisting of a floating raft and a tezontle bedding in transforming ammonium into nitrates. Two production cycles were conducted. During the first cycle, significant differences among treatments were observed in the leaf area index (LAI), yield, and fresh weight of the lettuce (Lactuca sativa L.) plants. In the second cycle, differences were also found in dry weight, width, and length of the leaf (Tukey, α = 0.05). The lettuce yields obtained across treatments during the first production cycle were 3.7 and 3.96 kg m-2, while in the second cycle they increased to 4.05 and 6.8 kg m-2. Nitrogen use efficiency was 49.05 and 38.13 % in the first cycle and 57.86 and 36.6 % in the second cycle. Tilapia (Oreochromis niloticus L.) yields were 7.36 and 7.413 kg m-3. The results indicate that the tezontle bedding system was better in terms of yield and other performance indicators.

Biografía del autor/a

Efrén Fitz-Rodríguez, UACh

Efrén Fitz Rodríguez, Ph.D. is professor in the Department of Agricultural Mechanical Engineering and the Agricultural Engineering Graduate Program (IAUIA) at Universidad Autonoma Chapingo, Mexico. He is a National System of Researchers of CONACYT member (SNI-I). He received M.Sc. and Ph.D. in Agricultural and Biosystems Engineering from the University of Arizona. He has experience working with the greenhouse industry and teaches engineering courses in Controlled Environment Agriculture at the B.Sc. and graduate levels. He founded the  Lab for Modeling and Automation of Agricultural Biosystems, where he researches developing sustainable greenhouse systems, machine vision, artificial intelligence, and numerical modeling in agricultural biosystems.

Irineo Lorenzo López-Cruz, UACh

Irineo López-Cruz obtained his Ph. D.  in Agricultural Engineering at Wageningen University & Research, The Netherlands. Currently, he is a full Professor at the Agricultural Mechanical Engineering Department and at the Graduate Agricultural Engineering Program at the Universidad Autónoma Chapingo,  Mexico.  He is a member of the National System of Researchers of CONACYT (level III). His research topics are: mathematical modeling, optimization and control of agricultural biosystems; mathematical modeling and dynamic simulation of crop growth; mathematical modeling, optimization and control of greenhouse-type solar dryers; applications of artificial intelligence methods to agricultural systems.

Archivos adicionales

Publicado

07-11-2025

Número

2025: Early Access (59-7)

Sección

Ciencia de los Alimentos

Licencia

Agrociencia es una publicación sesquimensual en formato totalmente en inglés, y editada por el Colegio de Postgraduados. Carretera México-Texcoco Km. 36.5, Montecillo, Texcoco, Estado de México, CP 56264, Teléfono (52) 5959284427. www.colpos.mx. Editor en Jefe de Agrociencia: Dr. Fernando Carlos Gómez Merino. Reservas de Derechos al Uso Exclusivo: 04-2021-031913431800-203, e-ISSN: 2521-9766, otorgados por el Instituto Nacional del Derecho de Autor.