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BI1339

Experimental approaches in plant growth analysis and phenotyping

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BI1339-10154 - Sammanställning av kursvärdering

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Andra kursvärderingar för BI1339

Läsåret 2024/2025

Experimental approaches in plant growth analysis and phenotyping (BI1339-10182)

2024-09-02 - 2024-10-31

Läsåret 2022/2023

Experimental approaches in plant growth analysis and phenotyping (BI1339-10352)

2022-08-29 - 2022-10-31

Läsåret 2019/2020

Experimental approaches in plant growth analysis and phenotyping (BI1339-10125)

2019-09-02 - 2019-10-31

Kursplan och övrig information

Litteraturlista

Course literature

BI1339 – Experimental approaches in plant growth analysis and phenotyping, 15 hp

Course leader: Martin Weih (martin.weih@slu.se)

The main course literature will be Lambers H, Chapin FS III, Pons TL (2008), Plant Physiological Ecology, Springer. An online version of this book is available from the SLU library at https://link.springer.com/book/10.1007%2F978-0-387-78341-3

Reference will be made to specific chapters of the main course literature by the teachers responsible for each teaching unit, through the course Canvas page.

In addition to the above course literature, other sources will be part of the course literature. In some cases, supporting (more basic) readings and additional (more advanced) readings will be listed (and clearly indicated) at the course Canvas page**. **All compulsory literature will be made available to the students enrolled through the course Canvas page.

The additional course literature includes the following titles (selection):

Araus JL, Kefauver SC (2018) Breeding to adapt agriculture to climate change: affordable phenotyping solutions. Current Opinion in Plant Biology 45, 237-247.

Chawade A, Van Ham J, Blomquist H, Bagge O, Alexandersson E, Ortiz R (2019) High-Throughput Field-Phenotyping Tools for Plant Breeding and Precision Agriculture. Agronomy 2019, 9, 258.

Connolly J, Wayne P, Bazzaz FA (2001) Interspecific Competition in Plants: How Well Do Current Methods Answer Fundamental Questions? The American Naturalist 157: 107-125.

Fiorani F, Schurr U (2013) Future Scenarios for Plant Phenotyping. Annual Review of Plant Biology 64:1, 267-291.

Fowler J, Cohen L, Jarvis P () Practical Statistics for Field Biology. Wiley.

Golzarian M, Frick R, Rajendran K, Berger B, Roy S, et al. 2011. Accurate inference of shoot biomass from high-throughput images of cereal plants. Plant Methods 7:2

Larcher W (2003) Physiological Plant Ecology, Springer, p. 111-119.

Poorter H, Niinemets Ü, Walter A, Fiorani F, Schurr U. 2010. A method to construct dose–response curves for a wide range of environmental factors and plant traits by means of a meta-analysis of phenotypic data. J. Exp. Bot. 61:2043–55

Weih M, Westerbergh A, Lundquist P-O (2017), Role of nutrient-efficient plants for improving crop yields: bridging plant ecology, physiology, and molecular biology, Hossain MA et al (Eds), Plant macronutrient use efficiency – Molecular and genomic perspectives in crop plants, Elsevier, p. 31-44.

Please note that all compulsory literature will be made available to the students enrolled through the course Canvas page.

Kursfakta

Kursen ges som en fristående kurs: Ja Kursen ges som en programkurs: Växtbiologi för hållbar produktion - masterprogram Växtbiologi för hållbar produktion - masterprogram Kursavgift: Studieavgift, endast för medborgare utanför EU, EES, och Schweiz: 38060 SEK Nivå: Avancerad nivå (A1N)
Ämne: Lantbruksvetenskap Biologi Biologi Lantbruksvetenskap
Kurskod: BI1339 Anmälningskod: SLU-10154 Plats: Uppsala Distanskurs: Nej Undervisningsspråk: Engelska Ansvarig institution: Institutionen för växtproduktionsekologi Studietakt: 100%