Assessment of water needs of Catalpa bignonioides under subsurface irrigation in row plantings

• Autorzy: Łangowski Ariel

Identyfikatory

DOI

10.24425/jwld.2025.153516

• Języki publikacji: EN

Abstrakty

EN

The research was based on a field experiment on light soil. The sampling used for row plantings was Catalpa bignonioides. The reason for this choice was the species recommended for row plantings due to its attractive appearance, long flowering and relatively good resistance to changing climatic conditions. The research aimed to determine water needs: field water consumption of C. bignonioides in row plantings on light soil under subsurface drip irrigation conditions. Water needs identified with field water consumption of C. bignonioides in row plantings on light soil under optimal soil moisture conditions during the growing season were variable. They depended on the variants of the experiment and the course of precipitation and thermal conditions in all growing seasons. The values of total water consumption of C. bignonioides in the growing seasons ranged from 241.3 (2019) to 428.7 mm (2022) for the W1 variant (irrigation performed when soil moisture dropped to -40 kPa). In the W2 variant objects (irrigation performed when soil moisture dropped to -20 kPa), the values of seasonal water consumption were higher and ranged from 266.5 (2019) to 458.8 mm (2022). Daily water consumption increased with the growth of C. bignonioides, regardless of the experimental variant. During each year of the experiment, higher values of daily water consumption were characteristic of the W2 variant. Cultivating C. bignonioides, growing on light soils, enables implementing subsurface drip irrigation technology, which, while ensuring optimal soil moisture conditions, will allow for the undisturbed growth and development of this species in row plantings.

Słowa kluczowe

EN

Catalpa bignonioides; light soil; row plantings; subsurface drip irrigation; water needs

• Wydawca: Wydawnictwo ITP
• Czasopismo: Journal of Water and Land Development
• Rocznik: 2025
• Tom: no. 64
• Strony: 56--62
• Opis fizyczny: Bibliogr. 16 poz., tab., wykr.

Twórcy

autor

Łangowski Ariel

• Bydgoszcz University of Science and Technology, Faculty of Agriculture and Biotechnology, 7 Kaliskiego St, building E, 85-796, Bydgoszcz, Poland

• https://orcid.org/0000-0002-3459-8990

Bibliografia

• Bac, S. and Ostrowski, S. (1969) Podstawy leśnych melioracji wodnych [Basics of forest water reclamation]. Warsaw: Powszechne Wydawnictwo Rolnicze i Leśne.
• Bastiaanssen, W.G.M. et al. (2001) “Soil moisture conditions in the Netherlands during the summer of 1995 interpreted from satellite measurements,” in A. van Dijk and M.G. Bos (eds.) GIS and remote sensing techniques in land and water management. Amsterdam: Kluwer, pp. 69–86.
• Dobrzyńska, N. and Dembek, W. (2020) Gospodarowanie wodą w rolnictwie w obliczu susz [Agricultural water management in the face of drought]. Warsaw: Ministerstwo Rolnictwa i Rozwoju Wsi. Available at: https://www.gov.pl/web/rolnictwo/gospodarowanie-woda-w-rolnictwie-w-obliczu-susz (Accessed: November 11, 2024).
• Drost, D.T. (1996) “Irrigation budget and plant growth of asparagus,” ISHS Acta Horticulturae, 415, pp. 343–350. Available at: https://doi.org/10.17660/ActaHortic.1996.415.48.
• Drozd, J. and Nowak, L. (2006) “Gospodarka wodna gleby [Soil water management],” in S. Karczmarczyk, L. Nowak (eds.) Nawadnianie roślin [Plant irrigation], pp. 27–65. Poznan: Powszechne Wydawnictwo Rolnicze i Leśne.
• Hall, R. and Roberts, J.M. (1990) “Hydrological aspects of new broadleaf plantations,” Seesoil, 6, pp. 2–38.
• Lechnio, J. (2005) “Hydrologiczne warunki obiegu substancji w obrębie wariantów krajobrazu [Hydrological conditions of substance circulation within the landscape variants],” in A. Richling and J. Lechnio (eds.) Z problematyki funkcjonowania krajobrazów nizinnych [On the matter of functioning of lowland landscapes]. Warsaw: Wydział Geografii i Studiów Regionalnych, Uniwersytet Warszawski, pp. 11–27.
• Pacholak, E. (1986) “Wpływ nawożenia i nawadniania na wzrost i plonowanie jabłoni odmiany ‘James Grieve’ [Effect of fertilization and irrigation on growth and yield of apple trees of ‘James Grieve’ cultivar],” Roczniki Akademii Rolniczej w Poznaniu. Rozprawy Naukowe, 160, pp. 1–79. Poznan: Wydawnictwo Uczelniane Akademii Rolniczej w Poznaniu.
• PTG (2009) “Klasyfikacja uziarnienia gleb i utworów mineralnych – PTG 2008 [Particle size distribution and textural classes of soils and mineral materials – classification of Polish Society of Soil Sciences 2008],” Soil Science Annual, 60(2), pp. 5–16.
• Rolbiecki, R. (2013) Ocena potrzeb i efektów mikronawodnień szparaga (Asparagus officinalis L.) na obszarze szczególnie deficytowym w wodę [Assessment of the needs and effects of micro-irrigation of asparagus (Asparagus officinalis L.) in a particularly water-scarce area]. Habilitation Thesis. Uniwersytet Technologiczno-Przyrodniczy. Available at: https://dlibra.pbs.edu.pl/publication/526 (Accessed: November 10, 2024).
• Rolbiecki, R. (2021) “Nawadniać czy nie nawadniać, dylematy współczesnego rolnictwa [To irrigate or not to irrigate, the dilemmas of modern agriculture],” in J. Bykowski (ed.) Współczesne uwarunkowania i wyzwania gospodarowania wodą w rolniczej przestrzeni produkcyjnej Wielkopolski [Contemporary conditions and challenges of water management in the agricultural production capacity of the Greater Poland], pp. 59–69. Poznan: Wydawnictwo Uniwersytetu Przyrodniczego w Poznaniu.
• Rolbiecki, S. et al. (2019) “Water needs of the ash-leaved maple (Acer negundo L.) at the period over three years after reclamation in different regions of Poland,” Journal of Ecological Engineering, 20, pp. 69–75. Available at: https://doi.org/10.12911/22998993/102790.
• Sositko, S. (2019) Ocena potrzeb wodnych i nawodnieniowych brzozy brodawkowatej (Betula pendula Roth.) oraz lipy drobnolistnej (Tilia cordata Mill.) w nasadzeniach fitomelioracyjnych na gruncie porolnym [Assessment of the water and irrigation needs of the bearded birch (Betula pendula roth.) and small-leafed linden (Tilia cordata Mill.) in phytomelioration plantings on former farmland]. PhD Thesis, 110. Politechnika Bydgoska.
• Testi, L., Villalobos, F. and Orgaz, F. (2003) “Evapotranspiration of a young irrigated olive orchard in southern Spain,” Agricultural and Forest Meteorology, 121, pp. 1–18. Available at: https://doi.org/10.1016/j.agrformet.2003.08.005.
• Varallyay, G. and Mironienko, E.V. (1979) “Soil water relationships in saline and alkali conditions,” Agrokemia es Talatjan, 28 (sup.), pp. 33–82.
• Żakowicz, S. (2010) Podstawy technologii nawadniania rekultywowanych składowisk odpadów komunalnych [Principles of irrigation technology of restoration municipal wastes landfills]. Rozprawy Naukowe i Monografie, 362. Warsaw: Wyd. SGGW.