Size-dependent sex allocation in Solanum lycocarpum St. Hil. (Solanaceae) / Alocação de sexo dependente de tamanho em Solanum lycocarpum St. Hil. (Solanaceae)

Resource allocation to reproduction can change depending on size, as predicted by the size-dependent sex allocation. This theory is based on the fact that small individuals will invest in the allocation of sex with lower cost of production, usually male gender. In plants, there are some andromonoecy species, presence of hermaphrodite and male flowers in the same individual. Andromonoecy provides a strategy to optimally allocate resources to male and female function, evolving a reproductive energy-saving strategy. Thus, our objective was to investigate the size-dependent sex allocation in Solanum lycocarpum St. Hil. We tested the hypothesis that plants with larger size will invest in the production of hermaphrodite flowers, because higher individuals have greater availability of resources to invest in more complex structures involving greater energy expenditure. The studied species was S. lycocarpum, an andromonoecious species. From June 2016 to March 2017 the data were collected in 38 individuals, divided in two groups: the larger plant group (n=18; height=3-5 m) and the smaller plant group (n=20; height=1-2 m).Our data show that there was effect of plant size on the flower production and the sexual gender allocation. The larger plants showed more flowers and higher production of hermaphrodite flowers. Furthermore, in the flower scale, we observed allometric relationship among the flower's traits with proportional investments in biomass, anther size and gynoecium size. Our results are in agreement with size-dependent sex allocation theory and andromonoecy hypothesis related to mechanisms for optimal resource allocation to male and female function.

A alocação de recursos para reprodução pode mudar dependendo do tamanho, conforme previsto pela alocação sexual dependente do tamanho. Essa teoria é baseada no fato de que indivíduos pequenos investirão na alocação sexual com menor custo de produção, geralmente do sexo masculino. Nas plantas, existem algumas espécies andromonoicas, presença de hermafrodita e flores masculinas no mesmo indivíduo. A andromonoicia fornece uma estratégia para alocar recursos de maneira ideal às funções masculina e feminina, desenvolvendo uma estratégia reprodutiva de economia de energia. Assim, nosso objetivo foi investigar a alocação sexual dependente do tamanho em Solanum lycocarpum St. Hil. Testamos a hipótese de que plantas de maior tamanho investirão na produção de flores hermafroditas, pois indivíduos mais altos economizam mais disponibilidade de recursos para investir em estruturas mais complexas que envolvem maior gasto de energia. A espécie estudada foi S. lycocarpum, uma espécie andromonoica. De junho de 2016 a março de 2017, os dados foram coletados em 38 indivíduos, divididos em dois grupos: o maior grupo de plantas (n = 18; altura = 3-5 m) e o menor grupo de plantas (n = 20; altura =1-2 m). Nossos dados mostram que houve efeito do tamanho da planta na produção de flores e na alocação sexual. As plantas maiores apresentaram mais flores e maior produção de flores hermafroditas. Além disso, observamos uma relação alométrica entre as características da flor, com investimentos proporcionais em biomassa, tamanho da antera e tamanho do gineceu. Nossos resultados estão de acordo com a teoria de alocação de sexo dependente de tamanho e a hipótese de andromonoicia relacionada a mecanismos para a alocação ótima de recursos para a função masculina e feminina.

Size-dependent sex allocation in Solanum lycocarpum St. Hil. (Solanaceae) / Alocação de sexo dependente de tamanho em Solanum lycocarpum St. Hil. (Solanaceae)

Resource allocation to reproduction can change depending on size, as predicted by the size-dependent sex allocation. This theory is based on the fact that small individuals will invest in the allocation of sex with lower cost of production, usually male gender. In plants, there are some andromonoecy species, presence of hermaphrodite and male flowers in the same individual. Andromonoecy provides a strategy to optimally allocate resources to male and female function, evolving a reproductive energy-saving strategy. Thus, our objective was to investigate the size-dependent sex allocation in Solanum lycocarpum St. Hil. We tested the hypothesis that plants with larger size will invest in the production of hermaphrodite flowers, because higher individuals have greater availability of resources to invest in more complex structures involving greater energy expenditure. The studied species was S. lycocarpum, an andromonoecious species. From June 2016 to March 2017 the data were collected in 38 individuals, divided in two groups: the larger plant group (n=18; height=3-5 m) and the smaller plant group (n=20; height=1-2 m).Our data show that there was effect of plant size on the flower production and the sexual gender allocation. The larger plants showed more flowers and higher production of hermaphrodite flowers. Furthermore, in the flower scale, we observed allometric relationship among the flower's traits with proportional investments in biomass, anther size and gynoecium size. Our results are in agreement with size-dependent sex allocation theory and andromonoecy hypothesis related to mechanisms for optimal resource allocation to male and female function.

A alocação de recursos para reprodução pode mudar dependendo do tamanho, conforme previsto pela alocação sexual dependente do tamanho. Essa teoria é baseada no fato de que indivíduos pequenos investirão na alocação sexual com menor custo de produção, geralmente do sexo masculino. Nas plantas, existem algumas espécies andromonoicas, presença de hermafrodita e flores masculinas no mesmo indivíduo. A andromonoicia fornece uma estratégia para alocar recursos de maneira ideal às funções masculina e feminina, desenvolvendo uma estratégia reprodutiva de economia de energia. Assim, nosso objetivo foi investigar a alocação sexual dependente do tamanho em Solanum lycocarpum St. Hil. Testamos a hipótese de que plantas de maior tamanho investirão na produção de flores hermafroditas, pois indivíduos mais altos economizam mais disponibilidade de recursos para investir em estruturas mais complexas que envolvem maior gasto de energia. A espécie estudada foi S. lycocarpum, uma espécie andromonoica. De junho de 2016 a março de 2017, os dados foram coletados em 38 indivíduos, divididos em dois grupos: o maior grupo de plantas (n = 18; altura = 3-5 m) e o menor grupo de plantas (n = 20; altura = 1-2 m). Nossos dados mostram que houve efeito do tamanho da planta na produção de flores e na alocação sexual. As plantas maiores apresentaram mais flores e maior produção de flores hermafroditas. Além disso, observamos uma relação alométrica entre as características da flor, com investimentos proporcionais em biomassa, tamanho da antera e tamanho do gineceu. Nossos resultados estão de acordo com a teoria de alocação de sexo dependente de tamanho e a hipótese de andromonoicia relacionada a mecanismos para a alocação ótima de recursos para a função masculina e feminina.

Size-dependent sex allocation in Solanum lycocarpum St. Hil. (Solanaceae)

Abstract Resource allocation to reproduction can change depending on size, as predicted by the size-dependent sex allocation. This theory is based on the fact that small individuals will invest in the allocation of sex with lower cost of production, usually male gender. In plants, there are some andromonoecy species, presence of hermaphrodite and male flowers in the same individual. Andromonoecy provides a strategy to optimally allocate resources to male and female function, evolving a reproductive energy-saving strategy. Thus, our objective was to investigate the size-dependent sex allocation in Solanum lycocarpum St. Hil. We tested the hypothesis that plants with larger size will invest in the production of hermaphrodite flowers, because higher individuals have greater availability of resources to invest in more complex structures involving greater energy expenditure. The studied species was S. lycocarpum, an andromonoecious species. From June 2016 to March 2017 the data were collected in 38 individuals, divided in two groups: the larger plant group (n=18; height=3-5 m) and the smaller plant group (n=20; height=1-2 m).Our data show that there was effect of plant size on the flower production and the sexual gender allocation. The larger plants showed more flowers and higher production of hermaphrodite flowers. Furthermore, in the flower scale, we observed allometric relationship among the flowers traits with proportional investments in biomass, anther size and gynoecium size. Our results are in agreement with size-dependent sex allocation theory and andromonoecy hypothesis related to mechanisms for optimal resource allocation to male and female function.

Resumo A alocação de recursos para reprodução pode mudar dependendo do tamanho, conforme previsto pela alocação sexual dependente do tamanho. Essa teoria é baseada no fato de que indivíduos pequenos investirão na alocação sexual com menor custo de produção, geralmente do sexo masculino. Nas plantas, existem algumas espécies andromonoicas, presença de hermafrodita e flores masculinas no mesmo indivíduo. A andromonoicia fornece uma estratégia para alocar recursos de maneira ideal às funções masculina e feminina, desenvolvendo uma estratégia reprodutiva de economia de energia. Assim, nosso objetivo foi investigar a alocação sexual dependente do tamanho em Solanum lycocarpum St. Hil. Testamos a hipótese de que plantas de maior tamanho investirão na produção de flores hermafroditas, pois indivíduos mais altos economizam mais disponibilidade de recursos para investir em estruturas mais complexas que envolvem maior gasto de energia. A espécie estudada foi S. lycocarpum, uma espécie andromonoica. De junho de 2016 a março de 2017, os dados foram coletados em 38 indivíduos, divididos em dois grupos: o maior grupo de plantas (n = 18; altura = 3-5 m) e o menor grupo de plantas (n = 20; altura = 1-2 m). Nossos dados mostram que houve efeito do tamanho da planta na produção de flores e na alocação sexual. As plantas maiores apresentaram mais flores e maior produção de flores hermafroditas. Além disso, observamos uma relação alométrica entre as características da flor, com investimentos proporcionais em biomassa, tamanho da antera e tamanho do gineceu. Nossos resultados estão de acordo com a teoria de alocação de sexo dependente de tamanho e a hipótese de andromonoicia relacionada a mecanismos para a alocação ótima de recursos para a função masculina e feminina.

Wastewater from swine farming in the growth and nutrition of Khaya senegalensis (DESR. ) A Juss seedlings / Água residuária da suinocultura no crescimento e nutrição de mudas de khaya senegalensis (DESR. ) a juss

This study evaluated the use of wastewater from swine farming in the growth and nutritional balance of Khaya senegalensis (Desr.) A. Juss. (African mahogany) seedlings. The experiment was setup in a shade house on the Professor Cinobelina Elvas Campus of the Federal University of Piauí, in Bom Jesus, in the State of Piauí, Brazil. The experimental design was completely randomised, with five concentrations of swine farm wastewater (SFW) (0, 25, 50, 75 and 100%) added to the irrigation water. The growth and nutritional balance of the seedlings were evaluated 100 days after sowing, by measuring shoot height (H), stem diameter (SD), number of leaves (NL), total chlorophyll (TC), leaf area (LA), shoot dry weight (SDW) and root dry weight (RDW), and by calculating the total dry weight (TDW), leaf (LBA), stem (SBA), and root (RBA) biomass allocation, Dickson Quality Index (DQI) and average Nutritional Balance Index (NBIm). It was found that K. senegalensis seedlings responded to the SFW, showing the best results for growth and nutritional balance at concentrations of around 50%.

Este trabalho foi realizado com o objetivo de avaliar a utilização da água residuária da suinocultura no crescimento e no balanço nutricional de mudas de Khaya senegalensis (Desr.) A. Juss. (mogno-africano). O experimento foi instalado no Campus Profa. Cinobelina Elvas, Universidade Federal do Piauí, em Bom Jesus, PI, dentro de uma casa de sombra. O experimento foi implantado em delineamento inteiramentecasualizado, com cinco concentrações de água residuária de suinocultura (ARS) (0; 25; 50; 75 e 100%) na água de irrigação. O crescimento e balanço nutricional das mudas foram avaliados aos 100 dias após a semeadura, com a mensuração da altura da parte aérea (H), diâmetro do coleto (DC), número de folhas (NF), clorofila total (CT), área foliar (AF), massa seca da parte aérea (MSPA) e do sistema radicular (MSR) e calculadas a massa seca total (MST), as alocações de biomassa foliar (ABF), caule (ABC), raízes (ABR), o Índice de Qualidade de Dickson (IQD) e Índice de Balanço Nutricional médio (IBNm). Constatou-se que a as mudas de K. senegalensis responderam à ARS, apresentando os melhores resultados de crescimento e equilíbrio nutricional em concentrações em torno de 50%.

Efecto del almacenamiento ex situ de semillas y de condiciones lumínicas sobre la tasa de crecimiento de plántulas de Crescentia alata (Bignoniaceae)

En el bosque tropical seco, el árbol Crescentia alata (Bignoniaceae) es un recurso cultural y económico, pero han fracasado algunos intentos para establecer plantaciones, que podrían satisfacer la producción comercial y, así, evitar el impacto en las poblaciones naturales. Por tanto, existe la necesidad de generar información biológica sobre esta especie para obtener plantas en condiciones de invernaderos. El objetivo de este trabajo fue evaluar la tasa de crecimiento de plantas de C. alata obtenidas de semillas que se almacenaron en diferentes períodos y a varias temperaturas, y determinar el efecto de la intensidad de la luz sobre el crecimiento de las plántulas. Se recolectaron frutos en Liberia (Guanacaste, Costa Rica) y se almacenaron semillas por 0, 4, 8 y 14 meses a 5 °C, 15 °C y a temperatura ambiente (22-24 °C). Las plántulas de las semillas almacenadas por 0, 4, 8 y 14 meses se trasplantaron para evaluar el crecimiento después de 8 días, 2 y 16 meses, y en dos condiciones de luminosidad. La morfología de las plántulas de 8 días cambió según el tiempo de almacenamiento. El análisis de componentes principales de la evaluación de 2 meses indica que las variables más significativas fueron biomasa total seca, biomasa seca de hojas, de raíz-vástago, de tallo y de raíz, mientras que en el análisis de la evaluación de 16 meses tales variables fueron biomasa seca de raíz, de raíz-vástago y de hojas, también número de hojas y longitud del vástago. El área foliar específica de plantas con 16 meses de edad obtenidas de semillas almacenadas 14 meses no cambió con la temperatura de almacenamiento. Además, dos condiciones de luminosidad influyeron en la altura, el diámetro del tallo o el número de hojas. El almacenamiento de semillas a 5 °C y 15 °C favoreció el desarrollo de los cotiledones, así como la longitud de la raíz y del hipocótilo. Plantas de 2 meses obtenidas de 0 y 8 meses asignaron mayor biomasa a raíces que a tallos, mejorando así la absorción de agua. Plantas de 16 meses provenientes de semillas no almacenadas desarrollaron el mayor número de hojas, y aquellas de semillas de 8 meses a 5 °C y 15 °C mostraron tallos más cortos. Las semillas almacenadas hasta 14 meses se convirtieron en plantas bien desarrolladas. Se recomienda a futuros investigadores evaluar la viabilidad a diferentes temperaturas de secado de las semillas y en niveles de intensidad lumínica más contrastantes durante el crecimiento.

The dry tropical forest tree Crescentia alata is a cultural and economical resource, but efforts to establish plantations, which could satisfy commercial production and avoid impact on natural populations, have been unsuccessful. So there is a need to generate biological information on this species for obtaining plants in greenhouses. The aim of this work was to evaluate the vigor and growth rate of C. alata seedlings born from seeds that were stored at different periods and temperatures, and to determine the effect of light intensity on the seedlings. Fruits were collected in Liberia (Guanacaste, Costa Rica) and seeds stored for 0, 4, 8, and 14 months at 5 °C, 15 °C, and ambient temperature (22-24 °C). Seedlings from seeds stored for 0, 4, 8 and 14 months were grown to evaluate growth after 8 days, 2 months, and 16 months, and in two different light conditions. Morphology of 8-day-seedlings changed according to storage time. Principal component analysis of 2-month evaluation indicates that the most significant variables were total dry biomass, dry biomass of leaves, root-shoot, stem, and root, while for the analysis of 16-month evaluation these variables were dry biomass of root, root-shoot, and leaves, also leaf number, and shoot length. Specific leaf area of 16-month plants from seeds stored for 14 months did not change with storage temperature. In addition, two different light conditions influence seedling height, stem diameter or leaf number. Seed storage at 5 °C and 15 °C favored development of seedling cotyledons, and length of both root and hypocotyl. Two month-seedlings from 0M and 8M allocated most biomass to roots and less to stems, enhancing this way water absorption. Sixteen-month-plants from non-stored seeds developed the highest leaf numbers, and those plants from 8M seeds at 5 °C and 15 °C showed shorter stems. Seeds stored up to 14 months kept viable, becoming healthy seedlings. We recommend that future researchers evaluate seed viability at different drying temperatures and more contrasting light levels.

Quantitative analysis of jatropha growth: micronutrient delivery system and NPK combined effects / Análise quantitativa de crescimento do pinhão manso: efeitos combinados de um sistema de fornecimento de micronutrientes e NPK

Studies approaching jatropha (Jatropha curcas L.) growth through quantitative analysis parameters are limited, especially regarding the response to different fertilizer types and doses. In order to investigate the effects of a micronutrient delivery system (MDS) fertilizer, a full quantitative analysis of growth in jatropha young plants was performed, comparing this system effectiveness under different NPK doses. Plants were grown in 3.9 L pots containing local soil, with or without MDS (main plot), combined with NPK doses (0; 1.8; 4.7 and 7.4 g L-1) in subplots. Dose-response curves of quantitative analysis variables were generated for three periods of time (40, 80 and 120 days after sown) as a sub-subplot. Quantitative analysis of growth showed that most parameters evaluated in this study were improved by MDS application, resulting in benefits for jatropha initial development, regardless of NPK doses. Even without NPK supplementation or under the lowest dose evaluated (1.8 g L-1), MDS provided better growth of J. curcas plants, being usually equivalent to the highest doses of NPK (4.7 and 7.4 g L-1) without MDS. The effective response of jatropha young plants to MDS supplementation indicates that this kind of fertilizer played a relevant role in the species metabolism, resulting in faster growth and enhanced biomass allocation.

Estudos abordando o desenvolvimento do pinhão manso (Jatropha curcas L.) através de análises de parâmetros quantitativos são limitados, especialmente em relação à resposta a diferentes tipos e doses de fertilizantes. Para investigar os efeitos de um sistema de fornecimento de micronutrientes (MDS), realizou-se uma análise quantitativa completa do crescimento de plantas jovens de pinhão manso comparando a eficácia deste sistema sob diferentes doses de NPK. As plantas foram cultivadas por 120 dias em potes de 3,9 L contendo solo local, com ou sem MDS (parcela principal), combinado com doses de NPK (0; 1,8; 4,7 e 7,4 g L-1) nas subparcelas. Curvas dose-resposta das análises quantitativas das variáveis foram geradas para três períodos (40, 80 e 120 dias após semeadura), como uma subsubparcela. As análises quantitativas de crescimento mostraram que a maioria dos parâmetros avaliados neste estudo foi melhorada pela aplicação do MDS, resultando em benefícios para o crescimento inicial do pinhão-manso, independemente da dose de NPK. Mesmo sem suplementação de NPK ou sob a dose mais baixa avaliada (1,8 g L-1), o MDS proporcionou melhor crescimento do pinhão manso, sendo geralmente equivalente às maiores doses de NPK (4,7 e 7,4 g L-1) sem MDS. A resposta efetiva das plantas jovens do pinhão manso à suplementação com MDS indica que este tipo de fertilizante desempenhou um papel relevante no metabolismo desta espécie, resultando em um crescimento mais rápido e melhor alocação de biomassa.

Acclimation of seedlings of Gnetum leyboldii Tul. Gnetaceae to light changes in a tropical rain forest / Aclimatación de plántulas de Gnetum leyboldii Tul. Gnetaceae a los cambios de luz en un bosque lluvioso tropical

The neotropical liana Gnetum leyboldii Gnetaceae is a gymnosperm that resembles angiosperms in wood anatomy, overall morphology, and seed dispersal mechanism. Like other woody lianas, seedlings germinate in the shaded forest understory and start climbing towards the canopy, being eposed to sites with etreme differences in light conditions. However, the etent of physiological and structural adjustment to contrasting light conditions in the early regeneration stages of Gnetum is unknown. To answer this question, we analyzed seedling growth and photosynthetic responses using a common garden eperiment with two light regimes: full sun and low light 20 of full sun at La Selva Biological Station, Costa Rica. We also characterized the germination pattern of this species. We monitored one and half-month old seedlings for four months. Leaf structure finely adapted to light treatments, but gas echange properties were buffered by large seed reserves, which dominated biomass distribution about 50 of the total biomass, followed by stem 27, leaf 16 and root biomass 6 across light conditions. The presence of large seeds and the low photosynthetic rates of seedlings in both environments show that G. leyboldii is specialized to eploit deep shade. More research is needed to determine if the patterns found in G. leyboldii are typical of similar lianas that initially eploit deep-shaded understories in their ascension to the canopy.

La liana neotropical Gnetum leyboldii Gnetaceae es una gimnosperma que se asemeja a las angiospermas en la anatomía de la madera, morfología general de la planta y mecanismo de dispersión de semillas. Al igual que otras lianas leñosas, las plántulas se regeneran en el sotobosque bajo dosel cerrado y eventualmente ascienden hacia el dosel, eplotando sitios con diferencias etremas en condiciones lumínicas. Se desconoce el grado de ajuste fisiológico a condiciones lumínicas contrastantes en las primeras fases de regeneración de Gnetum. Para contestar esta pregunta, analizamos las respuestas de crecimiento de las plántulas a ambientes contrastantes de luz de sol y sombra en un jardín común con condiciones de alta cielo abierto y baja luminosidad 20 del ambiente de sol en la Estación Biológica La Selva, Costa Rica. También caracterizamos su patrón de germinación. Monitoreamos plántulas de 1.5 meses de edad por 4 meses. La estructura foliar mostró una fina adaptación a los tratamientos de luz, pero las propiedades de intercambio gaseoso no cambiaron sino que fueron amortiguadas por las reservas de las semillas grandes, las cuales dominaron la distribución de biomasa aproimadamente 50 de la biomasa total seguidas por el tallo 27, la hoja 16 y raíces 6. El tener semillas grandes y plántulas con bajas tasas fotosintéticas muestra que G. leyboldii en su etapa de plántula está adaptado para eplotar la sombra profunda. Se requiere más investigación para determinar si los patrones encontrados en G. leyboldii son típicos de otras lianas que inicialmente eplotan la sombra profunda en su ascensión al dosel.

Growth and photosynthetic performance of five tree seedlings species in response to natural light regimes from the Central Pacific of Costa Rica / Crecimiento y desempeño fotosintético de cinco plántulas de especies arbóreas en respuesta a regímenes lumínicos naturales del Pacífico Central de Costa Rica

Environmental heterogeneity mostly dominated by differing light regimes affects the expression of phenotypic plasticity, which is important for plant growth and survival, especially in the forest understory. The knowledge about these responses to this heterogeneity is a key factor for forest restoration initiatives. In this study, we determine several phenotypic responses to contrasting light conditions in five native tree seedling species of La Cangreja National Park, Central Pacific of Costa Rica, four of them with threatened or relict populations. After 14 weeks at a medium gap condition (24% of full sun), seedlings were transferred and acclimated for 11 weeks to three different natural light regimes: large gap (LG), medium gap (MG) and small gap (SG), corresponding to 52%, 24%, 9% of the mean direct and indirect radiation at each site from full sun. Growth, biomass allocation and leaf gas exchange were measured after the acclimation period. Four species strongly reduced relative growth rate (RGR) in the lower light condition. Total biomass (TB) and RGR were different in Hymenaea courbaril and Platymiscium curiense. H. courbaril and Astronium graveolens had significant changes in the maximum assimilation rate, with a mean value in the LG of 11.02 and 7.70µmolCO2/m²s, respectively. P. curuense showed the same trend and significant changes in RGR and biomass allocation. Aspidosperma myristicifolium and Plinia puriscalensis showed no adjustments to the light regimes in any of the measured variables. This study remarks the importance of determining the growth and physiological performance of these tree native species. It also demonstrates that the most threatened species are those with the less plastic responses to the light regimes, which stresses the difficult situation of their natural populations. This study highlights an urgent definition of the conservation and restoration needs of the degraded forests of the Costa Rican Central Pacific area, where these species dwell.

La heterogeneidad ambiental dominada mayormente por diferencias en los regímenes lumínicos afecta la expresión de la plasticidad fenotípica, la cual es importante para el crecimiento y la supervivencia de las plantas, especialmente en el sotobosque. Conocer dichas respuestas ante la heterogeneidad es un factor clave para las iniciativas de restauración forestal. En este estudio, determinamos varias respuestas fenotípicas ante condiciones lumínicas contrastantes de cinco especies de plántulas de árboles nativos del Pacífico Central de Costa Rica, algunos de ellos con poblaciones amenazadas. El crecimiento, la asignación de biomasa y el intercambio gaseoso a nivel foliar se midieron al final de once semanas de aclimatación en tres regímenes con diferente radiación: claro grande (LG), claro mediano (MG) y claro pequeño (SG) que corresponden al 54, 24 y 9% de la media del factor de radiación indirecta e indirecta en cada sitio a pleno sol, respectivamente. Cuatro especies presentan fuertes disminuciones en la tasa de crecimiento relativo (RGR) en la condición de poca luz. La biomasa total, RGR y la relación raíz/tallo fueron diferentes para todas las especies. Hymenaea courbaril y Astronium graveolens respondieron significativamente en la tasa de asimilación máxima, con un valor promedio en el LG de 11.02 y 7.70µmolCO2/m²s¹ respectivamente. Platymiscium curuense mostró tendencias similares y cambios significativos en la RGR y la asignación de biomasa. Aspidosperma myristicifolium y Plinia puriscalensis mostraron una plasticidad muy baja debido que no expresaron ajustes en ninguna de las variables medidas ante los regímenes de luz. Este estudio resalta la importancia de determinar el crecimiento y el rendimiento fisiológico de estas especies de árboles nativos. También demuestra que las especies más amenazadas son aquellas con las respuestas con menor plasticidad ante los regímenes luz, lo que acentúa la difícil situación de sus poblaciones naturales. Este estudio destaca una urgente definición de las necesidades de conservación y restauración de los bosques degradados de zona del Pacífico Central costarricense, donde estas especies habitan.

Interaction between cochleata and stipule-reduced mutations results in exstipulate hypertrophied leaves in Pisum sativum L.

In the wild type P. sativum, each of the adult plant stem nodes, bears a pair of sessile foliaceous stipules and a petiolated unipinnately compound leaf of 4 to 6 leaflets and 7-9 tendrils. The stipule-reduced (st) and cochleata (coch) single null mutants and coch st double null mutant differ fom the wild type in respectively having sessile stipules of much reduced size, petiolated simple and/or compound leaf-like stipules and no stipules. It is also known that coch leaves are somewhat bigger than st and wild type leaves. Here, pleiotropic phenotype of coch st double mutant was investigated. The morphologies of stipules and leaf were quantified in the field grown plants and microcultured shoots, latter in the presence and absence of gibberellic acid and N-1-naphthylphthalamic acid. The observations showed that as compared to the corresponding plants or shoots of COCH ST (WT) genotype, (a) coch st plants bore leaves in which all the organs were hypertrophied; (b) full complement of leaflets and 3-5 tendrils were formed on leaf; (c) the microcultured coch st shoots were taller despite lower number of nodes, and (d) they also produced leaves in which all the organs were bigger and the ratio of leaflets/tendrils was higher. It was concluded that in coch st double mutant (a) ST function is essential for stipule primordium differentiation, in the absence of COCH function and (b) absence of negative feedback loops between simple stipules and compound leaf for metabolite utilization allows hypertrophied growth in leaves.

PLASTICIDAD FENOTÍPICA EN PLANTAS DE Lippia dulcis (VERBENACEAE) SOMETIDAS A DÉFICIT HÍDRICO / Phenotypic Plasticity in Plants of Lippia dulcis (Verbenaceae) Subjected to Water Deficit

La plasticidad fenotípica (PF) es un mecanismo mediante el cual las plantas pueden responder a la heterogeneidad ambiental con ajustes morfológicos y fisiológicos. En este estudio se cuantificó la PF de plantas de Lippia dulcis en respuesta a la disponibilidad hídrica en el suelo (baja, moderada y alta), en caracteres morfológicos y de asignación de biomasa, durante la ontogenia vegetativa (días 39, 45, 59 y 66). Nuestra hipótesis planteó que como respuesta a la disponibilidad hídrica, debería esperarse una mayor PF en caracteres morfológicos en comparación con caracteres de asignación de biomasa. La fracción de masa foliar, la razón del área foliar, la longitud de ramas, el número de hojas, así como la razón biomasa de la raíz/biomasa foliar, presentaron la mayor capacidad de ajuste plástico en las plantas de L. dulcis al déficit hídrico, mientras que el área foliar especifica representó el carácter con menor PF a lo largo de la ontogenia vegetativa. La magnitud y patrón de la PF variaron dependiendo del carácter, agua disponible y desarrollo ontogénico. Contrario a nuestra hipótesis, el grupo de caracteres morfológicos y de asignación de biomasa; exhibieron una PF equivalente. Los modelos de asignación óptima y forrajeo óptimo no son mutuamente excluyentes bajo condiciones de déficit hídrico. L. dulcis alteró su patrón de asignación de biomasa, la morfología foliar y la radicular, y como beneficio adaptativo optimizó el balance entre los órganos encargados de la absorción y el uso de agua. L. dulcis exhibió una notable capacidad para evadir el déficit hídrico.

Phenotypic plasticity (FP) is one of the mechanisms by which plants can respond to environmental heterogeneity by adjusting their morphology and physiology. This study tested and quantified the FP of Lippia dulcis plants in response to water availability in soil (low, medium and high), on morphologic and biomass allocation traits during the vegetative ontogeny (days 39, 45, 59 and 66). We hypothesized that in response to water availability, a higher FP should be expected in morphological compared to biomass allocation traits. The leaf mass fraction, leaf area ratio, branch length, number of leaves and root mass/leaf mass ratio, showed the largest capacity of plastic adjustment in the L. dulcis plants to water deficit, whereas the specific leaf area represented the trait with the lowest FP along vegetative ontogeny. The magnitude and pattern of FP changed depending on trait, water availability and ontogenic development. Contrary to our hypothesis the morphological traits and biomass allocation traits showed equivalent FP. The models of optimum allocation and optimum foraging are not mutually exclusive under water deficit. L. dulcis changed its pattern of biomass allocation, leaf and root morphology and as an adaptive advantage optimized the balance between organs involved in water acquisition and use. L. dulcis showed a remarkable ability to avoid water deficit.

Genotypic variation in morphology and freezing resistance of Eucalyptus globulus seedlings subjected to drought hardening in nursery / Variación genotípica en la morfología y resistencia a la congelación del Eucalyptus globulus a la sequía sometido al endurecimiento en vivero

Eucalyptus globulus Labill is one of the most planted species in Chile, because of its fast growth and superior pulp qualities. Nevertheless, the incidence of drought and frost damage immediately after planting is frequent. The purpose of this work was to study the effect of drought hardening on frost resistance and on variations in morphological traits that may increase drought resistance at nursery phase in four genotypes of E. globulus Labill. Drought hardening treatments consisted in induced water stress by watering restriction, until pre-dawn stem xylem water potentials (Psi pd) reached -0.2, -1.8 and -2.6 MPa. Two water stress-rewatering cycles were applied during 54 days of hardening. Plant and root biomasses were affected by the interaction of drought hardening and genotypes. The rest of morphological and alometrical traits were affected independently by drought or genotype. Plant height, leaf area, specific leaf area (SLA), stem, and leaf biomasses decreased with drought hardening, while collar diameter was not affected. Genotypes responded differentially to drought hardening in plant height, leaf area, SLA, and stem, and leaf biomasses. Ice nucleation temperature (INT), and freezing temperatures (FRT), and 50 percent freezing damage index of leaves (LT50) were affected by the interaction between drought hardening and genotypes. EG-13, EG-23 and EG-22 genotypes became freezing tolerant with drought hardening (-2.6 MPa). Additionally, EG-14 genotype increased its freezing resistance at -1.8 MPa. Therefore, freezing resistance levels and mechanism depend on genotype and drought hardening treatment. The success in tree breeding by genetic selection should be facilitated by improved understanding of the physiology of stress resistance development and survival during water supply limitations. The knowledge of morphological and freezing resistance dependency on the interaction between genotype and drought hardening may be useful...

PLASTICIDAD FENOTÍPICA EN Lippia alba (VERBENACEAE) EN RESPUESTA A LA DISPONIBILIDAD HÍDRICA EN DOS AMBIENTES LUMÍNICOS / Phenotypic Plasticity in Lippia alba (Verbenaceae) in Response to Water Availability in Two Light Environments

La plasticidad fenotípica es uno de los medios por los cuales las plantas pueden ajustar su morfología y fisiología, permitiéndoles enfrentar la heterogeneidad ambiental bajo condiciones naturales. El presente estudio evaluó la plasticidad fenotípica (PF) en respuesta a la disponibilidad hídrica del suelo, bajo dos condiciones de luz, en clones de dos poblaciones de Lippia alba (Verbanaceae) contrastantes en la heterogeneidad del régimen de precipitación en su hábitat natural, a través de normas de reacción morfológicas y de asignación de biomasa. El experimento se desarrolló en condiciones semicontroladas en invernadero, siguiendo un diseño experimental completamente aleatorizado, bajo un esquema factorial dos * dos (disponibilidad hídrica y poblaciones). La mayoría de los caracteres evaluados mostraron PF. No obstante, algunos caracteres de la población proveniente de condiciones naturales más homogéneas presentaron una reducción de plasticidad marcada. Lo anterior sugiere una posible relación entre el amplio rango de distribución de Lippia alba, PF y eventos de adaptación local.

The phenotypic plasticity is one possible way for plants to adjust their morphology and physiology to cope with the environmental heterogeneity of their natural conditions. This study tested the phenotypic plasticity (PF) in response to soil water availability, under two light conditions, in clones of two populations of Lippia alba (Verbanaceae), which show differences in the precipitation heterogeneity, using morphological and biomass allocation reaction norms. The experiment was conducted in a greenhouse under semi-controlled conditions in a random experimental design, under a factorial design of two * two (water availability and populations). The majority of the traits showed PF. Although, some traits of the populations that come from more homogenous conditions showed a significant reduction in plasticity. This could suggest a relationship between the wide ecological breadth of Lippia alba, PF and local adaptation events.