Water stress permanently alters shoot architecture in common bean plants
The effects of water stress on crop yield through modifications of plant architecture are vital to crop performance such as common bean plants. To assess the extent of this effect, an outdoor experiment was conducted in which common bean plants received five treatments: fully irrigated, and irrigation deficits of 30% and 50% applied in flowering or pod formation stages onwards. Evapotranspiration, number and length of pods, shoot biomass, grain yield and harvest index were assessed, and architectural traits (length and thickness of internodes, length of petioles and petiolules, length and width of leaflet blades and angles) were recorded and analyzed using regression models. The highest irrigation deficit in the flowering stage had the most pronounced effect on plant architecture. Stressed plants were shorter, leaves were smaller and pointing downward, indicating that plants permanently altered their exposure to sunlight. The combined effect of irrigation deficit and less exposure to light lead to shorter pods, less shoot biomass and lower grain yield. Fitted empirical models between water deficit and plant architecture can be included in architectural simulation models to quantify plant light interception under water stress, which, in turn, can supply crop models adding a second order of water stress effects on crop yield simulation.
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| Format: | Article/Letter to editor biblioteca |
| Language: | English |
| Subjects: | Dummy-variable regression, Functional-structural plant modeling, Phyllochron, Plant development, Plant organ, |
| Online Access: | https://research.wur.nl/en/publications/water-stress-permanently-alters-shoot-architecture-in-common-bean |
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dig-wur-nl-wurpubs-5499522024-12-04 Durigon, Angelica Evers, Jochem Metselaar, Klaas de Jong van Lier, Quirijn Article/Letter to editor Agronomy 9 (2019) 3 ISSN: 2073-4395 Water stress permanently alters shoot architecture in common bean plants 2019 The effects of water stress on crop yield through modifications of plant architecture are vital to crop performance such as common bean plants. To assess the extent of this effect, an outdoor experiment was conducted in which common bean plants received five treatments: fully irrigated, and irrigation deficits of 30% and 50% applied in flowering or pod formation stages onwards. Evapotranspiration, number and length of pods, shoot biomass, grain yield and harvest index were assessed, and architectural traits (length and thickness of internodes, length of petioles and petiolules, length and width of leaflet blades and angles) were recorded and analyzed using regression models. The highest irrigation deficit in the flowering stage had the most pronounced effect on plant architecture. Stressed plants were shorter, leaves were smaller and pointing downward, indicating that plants permanently altered their exposure to sunlight. The combined effect of irrigation deficit and less exposure to light lead to shorter pods, less shoot biomass and lower grain yield. Fitted empirical models between water deficit and plant architecture can be included in architectural simulation models to quantify plant light interception under water stress, which, in turn, can supply crop models adding a second order of water stress effects on crop yield simulation. en application/pdf https://research.wur.nl/en/publications/water-stress-permanently-alters-shoot-architecture-in-common-bean 10.3390/agronomy9030160 https://edepot.wur.nl/475528 Dummy-variable regression Functional-structural plant modeling Phyllochron Plant development Plant organ https://creativecommons.org/licenses/by/4.0/ Wageningen University & Research |
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Dummy-variable regression Functional-structural plant modeling Phyllochron Plant development Plant organ Dummy-variable regression Functional-structural plant modeling Phyllochron Plant development Plant organ |
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Dummy-variable regression Functional-structural plant modeling Phyllochron Plant development Plant organ Dummy-variable regression Functional-structural plant modeling Phyllochron Plant development Plant organ Durigon, Angelica Evers, Jochem Metselaar, Klaas de Jong van Lier, Quirijn Water stress permanently alters shoot architecture in common bean plants |
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The effects of water stress on crop yield through modifications of plant architecture are vital to crop performance such as common bean plants. To assess the extent of this effect, an outdoor experiment was conducted in which common bean plants received five treatments: fully irrigated, and irrigation deficits of 30% and 50% applied in flowering or pod formation stages onwards. Evapotranspiration, number and length of pods, shoot biomass, grain yield and harvest index were assessed, and architectural traits (length and thickness of internodes, length of petioles and petiolules, length and width of leaflet blades and angles) were recorded and analyzed using regression models. The highest irrigation deficit in the flowering stage had the most pronounced effect on plant architecture. Stressed plants were shorter, leaves were smaller and pointing downward, indicating that plants permanently altered their exposure to sunlight. The combined effect of irrigation deficit and less exposure to light lead to shorter pods, less shoot biomass and lower grain yield. Fitted empirical models between water deficit and plant architecture can be included in architectural simulation models to quantify plant light interception under water stress, which, in turn, can supply crop models adding a second order of water stress effects on crop yield simulation. |
| format |
Article/Letter to editor |
| topic_facet |
Dummy-variable regression Functional-structural plant modeling Phyllochron Plant development Plant organ |
| author |
Durigon, Angelica Evers, Jochem Metselaar, Klaas de Jong van Lier, Quirijn |
| author_facet |
Durigon, Angelica Evers, Jochem Metselaar, Klaas de Jong van Lier, Quirijn |
| author_sort |
Durigon, Angelica |
| title |
Water stress permanently alters shoot architecture in common bean plants |
| title_short |
Water stress permanently alters shoot architecture in common bean plants |
| title_full |
Water stress permanently alters shoot architecture in common bean plants |
| title_fullStr |
Water stress permanently alters shoot architecture in common bean plants |
| title_full_unstemmed |
Water stress permanently alters shoot architecture in common bean plants |
| title_sort |
water stress permanently alters shoot architecture in common bean plants |
| url |
https://research.wur.nl/en/publications/water-stress-permanently-alters-shoot-architecture-in-common-bean |
| work_keys_str_mv |
AT durigonangelica waterstresspermanentlyaltersshootarchitectureincommonbeanplants AT eversjochem waterstresspermanentlyaltersshootarchitectureincommonbeanplants AT metselaarklaas waterstresspermanentlyaltersshootarchitectureincommonbeanplants AT dejongvanlierquirijn waterstresspermanentlyaltersshootarchitectureincommonbeanplants |
| _version_ |
1819146180204953600 |