The impact of an extreme climatic disturbance and different fertilization treatments on plant development, phenology, and yield of two cultivar groups of Solanum betaceum Cav

Changing climatic conditions impose a challenge both to biodiversity and food security. The effects of climate change affect different aspects of the plant or crop, such as morphological and phenological aspects, as well as yield. The effects of greenhouse conditions might be comparable in some case...

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Bibliographic Details
Published in:PloS one 2017-12, Vol.12 (12), p.e0190316-e0190316
Main Authors: Tandazo-Yunga, Joffre V, Ruiz-González, Mario X, Rojas, Jacqueline R, Capa-Mora, Edwin D, Prohens, Jaime, Alejandro, José D, Acosta-Quezada, Pablo G
Format: Article
Language:English
Subjects:
Agricultural production
Biodiversity
Biology and Life Sciences
Climate and weather
Climate change
Climate effects
Climatic conditions
Climatic extremes
Crops
Cultivars
Developing countries
Disturbance
Disturbance (Ecology)
Earth Sciences
Environmental aspects
Environmental conditions
Environmental impact
Farm buildings
Fertilization
Food security
Food supply
Fruits
Genetic diversity
Greenhouse effect
Greenhouses
Growth
Influence
LDCs
Morphology
Organic fertilizers
Phenology
Plant fertilization
Plant reproduction
Plant species
Solanum
Solanum betaceum
Studies
Tomatoes
Trees
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Summary:Changing climatic conditions impose a challenge both to biodiversity and food security. The effects of climate change affect different aspects of the plant or crop, such as morphological and phenological aspects, as well as yield. The effects of greenhouse conditions might be comparable in some cases to a permanent extreme disturbance in climate and weather, thus, contributing to our knowledge on climate change impacts on plant species. We have investigated the differences for 23 traits in two cultivar groups of an Andean traditional crop, Solanum betaceum, under two different environmental conditions that correspond to the traditional practices in the open field and three cultural managements under greenhouse conditions (no fertilization or control, organic, and mineral). We found that traditional practices in the open field are the less productive. Moreover, in warmer and drier conditions the treatment with organic fertilization was the most productive. Greenhouse conditions, however, delay production. We further identified traits that differentiate both cultivar groups and traits that are linked to either the new climate conditions or the fertilization treatments. Fruit characteristics were quite homogeneous between the two cultivar groups. Overall, our results provide insight on the consequences that climate change effects might exert on crops such as tree tomato, reveal that greenhouses can be a robust alternative for tree tomato production, and highlight the need to understand how different managements are linked to different solutions to fulfil the farmers' demands.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0190316