Growth, Physiological, Nutrient-Uptake-Efficiency and Shade-Tolerance Responses of Cacao Genotypes under Different Shades

Growth, Physiological, Nutrient-Uptake-Efficiency and Shade-Tolerance Responses of Cacao Genotypes under Different Shades

Cacao is an understory plant cultivated in full-sun monocultures, multistrata agroforestry systems, where cacao trees are planted together with fruit, timber, firewood, and leguminous trees, or within thinned native forests. In agroforestry systems of cultivation, cacao is subjected to excess shade...

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Main Authors: Enrique Arévalo-Gardini, Abel Farfán, Fiorella Barraza, César O. Arévalo-Hernández, Luis B. Zúñiga-Cernades, Julio Alegre, Virupax C. Baligar
Format: Article
Language:English
Published: MDPI AG 2021-07-01
Series:Agronomy
Subjects:
<i>Theobroma cacao</i>
light
abiotic stress
physiology
plant nutrition
Online Access:https://www.mdpi.com/2073-4395/11/8/1536
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spelling doaj-9ec7b982822d411290345fdb8d5554bc2021-08-26T13:25:43ZengMDPI AGAgronomy2073-43952021-07-01111536153610.3390/agronomy11081536Growth, Physiological, Nutrient-Uptake-Efficiency and Shade-Tolerance Responses of Cacao Genotypes under Different ShadesEnrique Arévalo-Gardini0Abel Farfán1Fiorella Barraza2César O. Arévalo-Hernández3Luis B. Zúñiga-Cernades4Julio Alegre5Virupax C. Baligar6Instituto de Cultivos Tropicales (ICT), Tarapoto 22200, PeruInstituto de Cultivos Tropicales (ICT), Tarapoto 22200, PeruInstituto de Cultivos Tropicales (ICT), Tarapoto 22200, PeruInstituto de Cultivos Tropicales (ICT), Tarapoto 22200, PeruInstituto de Cultivos Tropicales (ICT), Tarapoto 22200, PeruAgronomy Faculty, Universidad Nacional Agraria La Molina (UNALM), Lima 15026, PeruBeltsville Agricultural Research Center, U.S. Department of Agriculture/Agricultural Research Service, Beltsville, MD 20705, USACacao is an understory plant cultivated in full-sun monocultures, multistrata agroforestry systems, where cacao trees are planted together with fruit, timber, firewood, and leguminous trees, or within thinned native forests. In agroforestry systems of cultivation, cacao is subjected to excess shade due to high density, excess growth, and the unmanaged pruning of shade trees. Cacao is tolerant to shade, and the maximum photosynthetic rate occurs at an irradiance of around 400 μmol m<sup>−2</sup> s<sup>−1</sup>. However, excess shade further reduces the irradiance, which is detrimental to photosynthesis and growth functions. Intra-specific variation is known to exist in cacao for the required saturation irradiance. A greenhouse study was implemented with 58 cacao genotypes selected from four geographically diverse groups: (i) wild cacao from river basins of the Peruvian Amazon (PWC); (ii) Peruvian farmers’ collection (PFC); (iii) Brazilian cacao collection (BCC); and (iv) national and international cacao collections (NIC). All of the cacao genotypes were subjected to 50% and 80% shade where photosynthetic photon flux density (PPFD) was 1000 and 400 μmol m<sup>−2</sup> s<sup>−1</sup>, respectively. Intra-specific variations were observed for growth, physiological and nutritional traits, and tolerance to shade. Cacao genotypes tolerant to shade were: UNG-77 and UGU-130 from PWC; ICT-2173, ICT-2142, ICT-2172, ICT-1506, ICT-1087, and ICT-2171 from PFC; PH-21, CA-14, PH-990, and PH-144 from BCC; and ICS-1, ICS-39, UF-613, and POUND-12 from NIC. Genotypes that tolerate excess shade may be useful plant types for maintaining productivity and sustainability in agroforestry systems of cacao management.https://www.mdpi.com/2073-4395/11/8/1536<i>Theobroma cacao</i>lightabiotic stressphysiologyplant nutrition
collection DOAJ
language English
format Article
sources DOAJ
author Enrique Arévalo-Gardini
Abel Farfán
Fiorella Barraza
César O. Arévalo-Hernández
Luis B. Zúñiga-Cernades
Julio Alegre
Virupax C. Baligar
spellingShingle Enrique Arévalo-Gardini
Abel Farfán
Fiorella Barraza
César O. Arévalo-Hernández
Luis B. Zúñiga-Cernades
Julio Alegre
Virupax C. Baligar
Growth, Physiological, Nutrient-Uptake-Efficiency and Shade-Tolerance Responses of Cacao Genotypes under Different Shades
Agronomy
<i>Theobroma cacao</i>
light
abiotic stress
physiology
plant nutrition
author_facet Enrique Arévalo-Gardini
Abel Farfán
Fiorella Barraza
César O. Arévalo-Hernández
Luis B. Zúñiga-Cernades
Julio Alegre
Virupax C. Baligar
author_sort Enrique Arévalo-Gardini
title Growth, Physiological, Nutrient-Uptake-Efficiency and Shade-Tolerance Responses of Cacao Genotypes under Different Shades
title_short Growth, Physiological, Nutrient-Uptake-Efficiency and Shade-Tolerance Responses of Cacao Genotypes under Different Shades
title_full Growth, Physiological, Nutrient-Uptake-Efficiency and Shade-Tolerance Responses of Cacao Genotypes under Different Shades
title_fullStr Growth, Physiological, Nutrient-Uptake-Efficiency and Shade-Tolerance Responses of Cacao Genotypes under Different Shades
title_full_unstemmed Growth, Physiological, Nutrient-Uptake-Efficiency and Shade-Tolerance Responses of Cacao Genotypes under Different Shades
title_sort growth, physiological, nutrient-uptake-efficiency and shade-tolerance responses of cacao genotypes under different shades
publisher MDPI AG
series Agronomy
issn 2073-4395
publishDate 2021-07-01
description Cacao is an understory plant cultivated in full-sun monocultures, multistrata agroforestry systems, where cacao trees are planted together with fruit, timber, firewood, and leguminous trees, or within thinned native forests. In agroforestry systems of cultivation, cacao is subjected to excess shade due to high density, excess growth, and the unmanaged pruning of shade trees. Cacao is tolerant to shade, and the maximum photosynthetic rate occurs at an irradiance of around 400 μmol m<sup>−2</sup> s<sup>−1</sup>. However, excess shade further reduces the irradiance, which is detrimental to photosynthesis and growth functions. Intra-specific variation is known to exist in cacao for the required saturation irradiance. A greenhouse study was implemented with 58 cacao genotypes selected from four geographically diverse groups: (i) wild cacao from river basins of the Peruvian Amazon (PWC); (ii) Peruvian farmers’ collection (PFC); (iii) Brazilian cacao collection (BCC); and (iv) national and international cacao collections (NIC). All of the cacao genotypes were subjected to 50% and 80% shade where photosynthetic photon flux density (PPFD) was 1000 and 400 μmol m<sup>−2</sup> s<sup>−1</sup>, respectively. Intra-specific variations were observed for growth, physiological and nutritional traits, and tolerance to shade. Cacao genotypes tolerant to shade were: UNG-77 and UGU-130 from PWC; ICT-2173, ICT-2142, ICT-2172, ICT-1506, ICT-1087, and ICT-2171 from PFC; PH-21, CA-14, PH-990, and PH-144 from BCC; and ICS-1, ICS-39, UF-613, and POUND-12 from NIC. Genotypes that tolerate excess shade may be useful plant types for maintaining productivity and sustainability in agroforestry systems of cacao management.
topic <i>Theobroma cacao</i>
light
abiotic stress
physiology
plant nutrition
url https://www.mdpi.com/2073-4395/11/8/1536
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