Home > XV International Asparagus Symposium > Estimation of canopy cover, biomass, asparagus (Asparagus officinalis L.) spear yield, and the need for irrigation using AquaCrop model

Articles

Estimation of canopy cover, biomass, asparagus (Asparagus officinalis L.) spear yield, and the need for irrigation using AquaCrop model

Article number

1376_25

Pages

177 – 184

Language

English

Abstract

Water is the main factor for crop growth and development.
Globally irrigation in agriculture uses about 70% of the available freshwater resources, and thus improving irrigation management will increase the water use efficiency.
Intensive agriculture with perennial crops like the asparagus (Asparagus officinalis L.) in the semi-arid environment of Sonora in northwestern Mexico consumes significant volumes of water.
These crops receive around 2,000 mm annually of irrigation to reach commercial asparagus spears yields (8.5 to 10.5 t ha^‑1). In this study, the AquaCrop model was parameterized and evaluated to estimate canopy ground cover (CC), the amount of crop biomass produced (B), the asparagus spears yield (Y), and the need for irrigation for growing seasons (2019 and 2020). Results showed good accuracy for CC and B according to the root mean square errors (RMSE) from 2.3 to 10.35% CC and 3.25 to 4.48 t ha^‑1 B, between model predictions and observed data.
In addition, the simulated asparagus spears yield was 8.85 to 9.22 t ha^‑1 for respective growing seasons.
Therefore, the net irrigation for the crop under these conditions was around 1300 to 1400 mm per growing season.
This lets to achieving a reduction of around 600 mm (more than 30%) of water per season compared to the current irrigation amount applied by the growers.
Overall, results have shown that the AquaCrop model is suitable for CC, B, Y, and net irrigation estimation for asparagus cultivar Atlas in the arid environment of Sonora in northwestern Mexico.

Publication

XV International Asparagus Symposium

Authors

F. Cruz-Bautista, I.L. López-Cruz, J.C. Rodríguez, S. Ortega-Farías, G. Viveros-Herrera

Keywords

model calibration, simulation, crop growth, asparagus, AquaCrop

Full text

https://doi.org/10.17660/ActaHortic.2023.1376.25

Groups involved

Online Articles (34)

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5. Evaluation of combining ability in asparagus triploid hybrids using a North Carolina II mating design

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6. Evaluation of polyploid experimental asparagus hybrids under spring and autumn harvesting for agronomic traits and flavonoids content

R. Rodríguez-Arcos | J. Gil | P. Castro | R. Guillen-Bejarano | R. Moreno

7. Growth and yield performance of new asparagus (Asparagus officinalis L.) cultivars under shading conditions

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8. Asparagus officinalis (L.): yield and field performance of 10 genotypes cultivated in a semi-arid environment

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10. Yield analyses of sixteen green asparagus (Asparagus officinalis L.) cultivars in the first two years of harvest in Hangzhou, China

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11. Production of seven asparagus cultivars in the Peruvian central coast

A. Casas | R. Rioja | D. Chavez

12. Applicability of a new sex-linked codominant DNA marker among asparagus cultivars and various Asparagus species

M. Akahori | Y. Sato | A. Kanno

13. Productivity of a trial of thirteen asparagus genotypes in their eighth year within the IV International Asparagus Cultivar Trial (ISHS)

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A.M. Castagnino | K.E. Diaz | M.B. Rosini | E. Bastien | W.J. Rogers

15. Asparagus in the world and Japan asparagus cultivation in Japan in the age of internationalization

S. Motoki

16. Growth and yield of one-year-old asparagus (Asparagus officinalis) plants by two cropping types in Japan

T. Taguchi | R. Saruya | W. Chen | S. Walker | M. Walker | S. Yamashita | S. Motoki

17. Sustainable asparagus film disposal without creating microplastics

M. Geyer | K. Salama

18. Growth and yield differences between the sex of 2-, 4-, and 8-year-old asparagus in low-humic andosol

K. Okada | S. Imai | T. Taguchi | A. Kanno | S. Motoki

19. Influence of plastic film covers on soil life in asparagus ridges

R. Djalali Farahani-Kofoet | J. Graefe | C. Feller

20. Innovative machinery for asparagus cultivation

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21. Assessment of the water needs for asparagus in Mediterranean area

P. Cermeño-Sacristán | L. Andreu-Cáceres | V.H. Durán-Zuazo | M.J. Romero-Solís

22. Year-round asparagus production

M.A. Nichols

23. Water needs and production of asparagus in the arid zone of northwestern Mexico

J.C. Rodríguez | C. Lizárraga-Celaya | S. Er-Raki | F. Cruz-Bautista | S. Ortega-Farías | A. Ochoa-Meza | G. Viveros-Herrera

24. High tunnel production for high yields: options for established and annual asparagus

D.T. Drost | J. Martin

25. Estimation of canopy cover, biomass, asparagus (Asparagus officinalis L.) spear yield, and the need for irrigation using AquaCrop model

F. Cruz-Bautista | I.L. López-Cruz | J.C. Rodríguez | S. Ortega-Farías | G. Viveros-Herrera

26. Estimation of evapotranspiration and crop coefficient of asparagus in semi-arid region of Mexico using NDVI remote sensing data

S. Er-Raki | E.H. Bouras | J.C. Rodríguez | A. Amazirh | C. Lizárraga-Celaya | F. Cruz-Bautista

27. Long-term application of best management practices affects yields and root carbohydrate content in asparagus (Asparagus officinalis) (UK)

L. Mašková | R.W. Simmons | L.K. Deeks | S. De Baets | D.T. Drost

28. Effect of flooding period and infection with Fusarium oxysporum f. sp. asparagi on asparagus growth

T. Sonoda

29. Suppression of Fusarium crown and root rot of asparagus with nano micronutrients

W.H. Elmer | N. Zuverza-Mena | J.C. White

30. Advancing control strategies for soil-borne and foliar pathogens in Michigan asparagus

B.R. Harlan | M.K. Hausbeck

31. Comparison of asparagus marketing in Japan and six European countries during the peak harvest season

S. Yamashita | T. Taguchi | A. Kato | S. Motoki

32. Understanding the mechanisms responsible for postharvest tip breakdown in asparagus: a biochemical approach

E. Collings | S. Landahl | M. Jodkowska | S. Nayakoti | J. Chinn | H. Rogers | L.A. Terry | M.C. Alamar

33. Understanding asparagus tip breakdown postharvest at a molecular and cellular level

S. Nayakoti | E. Collings | S. Landahl | J. Chinn | L.A. Terry | S. Christofides | M.C. Alamar | H. Rogers

34. The identification of ἀσφάραγος in botanical works by Theophrastus and its usage in ancient Roman cuisine

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