Physiochemical response of papaya genotypes exposed to low temperature regimes

Susceptibility to low temperature stress is the major threat to papaya cultivation. Here, we studied a low temperature stress tolerance in papaya plant. We have investigated the effect of different low temperature regimes, 28°/18°C (day/night) to 16°/06°C (day/night) with a gradual decrease of 2°C on every two days and one set with direct exposure to the low temperature of 18°/08°C (day/night), called the acclimatized plant, in five diverse papaya genotypes (Pusa Nanha, Red Lady P-7-2, P-7-9, and P-7-14) and cold tolerant wild relative of cultivated papaya genotype (Vasconcellea cundinamarcensis V.M. Badillo) under controlled regulated conditions. It was observed that there were significant variations in the physiological and biochemical parameters like photosynthetic gas exchange parameters, chlorophyll content, fluorescence parameters, relative water content (RWC), membrane stability index (MSI), total sugars content, total soluble proteins content, lipid peroxidation, and proline accumulation in leaf tissues. Maximum stomatal conductance, chlorophyll fluorescence, RWC, MSI, total sugars, total soluble proteins, proline and lowest MDA contents were observed in Vasconcellea cundinamarcensis followed by inbred P-7-9 as compared to other genotypes under low temperature stress. Among all the papaya genotypes, P-7-9 showed more adaptability to low temperature stress and it further give new insights for developing low temperature tolerant papaya genotypes, especially under changing climate situations.

Comparative physiological and histological investigations on resistant and susceptible pomegranate genotypes infected with Xanthomonas axonopodis pv. Punicae

Xanthomonas axonopodis pv. punicae (Xap) is a bacterial pathogen wreaking havoc in pomegranate cultivation. It causes bacterial blight disease dwindling yield and making fruit unfit for consumption. Physiological and histological investigations during host-pathogen interaction are prerequisite to assess the onset of defense mechanism in plants. Therefore, we tried to compare the pomegranate resistant (IC 318734) and highly susceptible (Ruby) genotypes challenged with Xap. The bacterial suspension containing Xap cells of 0.3 OD600 (~106 to 107CFU mL?1) was used for challenge inoculation. Uniformly grown resistant and highly susceptible plants were selected, the surface of leaves was pricked and spray-inoculated with bacterial suspension using native strain IIHR1 (NCBI Gen Bank ID: KT 222897). Simultaneously, the control plants were also sprayed with only distilled water and observed. A total of three replications with five plants per replication were maintained and evaluated under completely randomized design. Physiological investigations were recorded using Portable photosynthesis system (LCpro+, ADC BioScientific limited, UK) for one cycle of disease progression viz., 0, 1, 5, 10, 15 and 20 days after bacterial spray inoculation (DAI). Significant changes in gas exchange parameters were witnessed on pathogen inoculation. Higher reduction in mean percent change of photosynthetic and transpiration rate, instantaneous water use efficiency, internal CO2 content, stomatal conductance and relative water content were noticed in highly susceptible genotype than resistant one. On contrary, an increased percent mean change of intrinsic water use efficiency, carboxylation capacity and lignin was documented in resistant genotype. Relative injury caused due to bacterial infection was found high in highly susceptible genotype than resistant one. Histological investigations in highly susceptible and resistant genotype were studied on 20th day of Xap inoculation using Scanning Electron Microscopy. Highly susceptible genotype exhibited maximum deformed cells, tissues and other visible abnormalities upon Xap inoculation. Thus, this study forms a basis for effective disease management and breeding programmes in pomegranate.

Gas exchanges and chlorophyll content in green pepper plants under bio-fertilization and times of application

This study aimed to determine the gas exchange and the chlorophyll content of green pepper plants under doses and times of application of bio-fertilizers based on manure and enriched organic compost. Two experiments were carried out simultaneously with applications of bio-fertilizers prepared from manure and enriched organic compost, one using cattle manure (CBF) and the other sheep manure (SBF). For these, four doses of biological fertilizers (100, 200, 300 and 400 dm³ ha-1), three application times (0, 30 and 60 days after transplantation - DAT) and absolute control, referring to the absence of fertilization, were used. treatments. were arranged in a randomized block design, totaling 13 treatments. The variables evaluated were: the relative chlorophyll a, b and total content; liquid photosynthesis (A); stomatal conductance (gs); internal CO2 concentration (Ci); instant carboxylation efficiency (iCE - A/Ci); transpiration rate (T); intrinsic water use efficiency (iWUE - A/gs); and water use efficiency (WUE - A/E). Gs, A and T, showed significant effect at 60 DAT with the application of SBF and Ci at 30 DAT with CBF. The dose of 400 dm³ ha-1 of SBF provided greater gas results, and the doses of 200 and 300 dm³ ha-1 of CBF promoted a greater Ci, greater stomatal conductance, greater liquid photosynthesis and better water use efficiency, which results in a greater plant fresh weight at the time of flowering induction.

Liming and macronutrient on early growth of Eucalyptus benthamii / Calcário e macronutrientes no crescimento inicial de Eucalyptus benthamii

ABSTRACT: Macronutrient suppression is one way to identify which chemical elements is the most important in the early development of seedlings of forest species. This study evaluated the initial growth of Eucalyptus benthamii seedlings through morphological and physiological variables, submitted to doses of N, P and K, and liming. The experimental design to install the experiment was completely randomized, with a 2x9 factorial scheme, in which levels of factor "A" referred to absence and presence of liming and levels of factor "B", to the different treatments of NPK. Morphological variables of SD (stem diameter) and H (height) and the physiological variables of A (photosynthesis), E (transpiration), gs (stomatal conductance), Ci/Ca (relationship between intercellular and atmospheric CO2 concentration) and WUE (water use efficiency) were measured. For morphological variables, the absence of N directly affected the means and there was a direct relationship between increase of the dose and increase of SD and H. There was a positive relationship of P mainly in relation to shoot dry matter content (SDMC) and root dry matter content (RDMC). For the physiological variables, there was no direct response with the doses of N or P, with K being the element that most influenced the variables, especially when limestone was applied, resulting in higher averages for photosynthesis, transpiration and stomatal conductance. With the purpose of meeting the morphological and physiological demands, the recommendation for cultivation of Eucalyptus benthamii under the conditions of this study is the doses 150-200-150, without liming application.

RESUMO: A supressão dos macronutrientes é uma das maneiras de identificar qual ou quais dos elementos químicos é o mais importante no desenvolvimento inicial das mudas de espécies florestais. O estudo objetivou avaliar o crescimento inicial de mudas de Eucalyptus benthamii por meio de variáveis morfológicas e fisiológicas, submetidas a doses de N, P e K, e calagem. O delineamento experimental para instalação do experimento foi em delineamento inteiramente casualizado, com esquema fatorial 2x9, em que os níveis do fator "A" se referiram a ausência e a presença de calagem e os níveis do fator "B" aos diferentes tratamentos de NPK. Variáveis morfológicas de DAC (diâmetro a altura do colo) e H (altura) e as variáveis fisiológicas de A (fotossíntese), E (transpiração), gs (condutância estomática), Ci/Ca (relação entre a concentração intercelular e atmosférica de CO2) e WUE (eficiência no uso da água) foram determinadas. Para as variáveis morfológicas, a ausência do N afetou diretamente as médias, havendo uma relação direta entre o aumento da dose com o aumento das variáveis. Há uma relação positiva do P principalmente em relação a MSPA e MSPR. Para as variáveis fisiológicas, não houve resposta direta com as doses de N ou P, sendo o K o elemento que mais influenciou as variáveis, principalmente quando o calcário foi aplicado, resultando em maiores médias para fotossíntese, transpiração e condutância estomática. Com o objetivo de atender às demandas morfológicas e fisiológicas, a recomendação para o cultivo de Eucalyptus benthamii nas condições deste estudo é a dose 150-200-150, sem aplicação de calagem.

Potential increase in photosynthetic response of taro (Colocasia esculenta L.) to photon flux density and elevated CO2

Aim: The present study was undertaken to study the net photosynthetic rate (Pn), stomatal conductance (gs) and intercellular CO2 (Ci) in five eddoe and four dasheen type taro genotypes under ambient and elevated CO2 , and subjected to different photon flux densities. Methodology: The critical evaluation of Pn was assessed at different photosynthetic photon flux densities (PPFDs) viz., 200, 400, 600, 800, 1000, 1200 and 1500 µmol m-2 hr-1 under ambient CO2 (400 ppm) and at saturation PPFD (1500 µmol m-2 hr-1) at short-term (ten min) exposure of leaves to elevated CO2 (eCO2; 600, 800 and 1000 ppm) at 30oC using portable photosynthesis system LI-6400, LICOR, USA in a controlled-climate cuvette system. Results: The Pn in the leaves of nine taro genotypes persistently augmented upon short-term (10 min) exposure to eCO2 concentrations which ranged between 400 ppm and 1000 ppm. Taro genotypes exhibited 61.80 – 113.3% hike in Pn at eCO2 (1000 ppm) as compared to ambient CO2 (400 ppm). However, the per cent increase in Pn at eCO2 for every 200 ppm between 400 to1000 ppm significantly declined (4.4-18.4%) at 1000 ppm CO2. The differences in gs were statistically significant across taro genotypes (P>0.001) and CO2 concentrations (P>0.001). Further, the Ci was also found to increase constantly at eCO2 concentrations (400 ppm to 1000 ppm). However, there was significant reduction (16.2 - 31.3%) in Ci for every 200 ppm between 400-1000 ppm. Interpretation: Results of the study revealed that the genotypes Muktakeshi, Sree Pallavi and Telia are promising in the context of climate change as they significantly responded to eCO2 concentrations. Response mechanism to eCO2 need to be elucidated.

COMPORTAMIENTO ECOFISIOLÓGICO DEL CAFETO (Coffea arabica L.) CV. CASTILLO EN SISTEMAS AGROFORESTALES DE TIBACUY, CUNDINAMARCA

En Tibacuy, Cundinamarca, Colombia, se encuentran culti- vos de café, tanto a pleno sol como con diferentes coberturas arbóreas y de plátano (Musa AAB); sin embargo, no se han realizado investigaciones que estudien las interacciones entre el dosel de sombra y el cultivo. Esta investigación, se centró en evaluar la respuesta ecofisiológica de plantas de cafeto cv. Castillo en sistemas agroforestales (SAF), con tres niveles de sombra: baja, de 0 a 20%; media, 21 a 47% y alta, de 48 a 70%. Se seleccionaron cinco fincas por condición de sombra, con cafetales de 4 a 6 años. En cada predio, se estableció una parcela de 1.000m², en la que se realizaron tres muestreos en el 2015: periodo lluvioso-enero, época de transición-junio y época seca-julio. En cada parcela, se se- leccionaron tres plantas de café representativas y en cada planta tres hojas, una por estrato vertical: bajo, medio y alto. Se midió la radiación fotosintéticamente activa incidente (RAFAi), conductancia estomática, transpiración y asimila- ción neta de carbono, con un sistema de fotosíntesis porta- ble CIRAS-3. Los resultados indican que niveles de sombra entre 48 y 70% afectaron negativamente la fotosíntesis de las plantas de café, mientras que con niveles de sombra, hasta de 47%, se obtiene una eficiencia fotosintética similar a plantas de café a pleno sol. Estos resultados son importantes para las decisiones de establecimiento y de manejo de sistemas productivos de café, principalmente, las relacionadas con el dosel de sombra.

Coffee crops under full sun and different tree covers and plantain (Musa AAB) are located in Tibacuy, Cundinamarca, Colombia; however, no studies about interactions between canopy layer and the crop have been carried out. This research is focused in evaluating the ecophysiological performance of coffee bushes cv. Castillo in agroforestry systems (AFS) under three conditions of tree and plantain (Musa AAB) shade: low shade, 0-20%, medium shade, 21-47% and high shade, 48-70%. Five farms by type of shade with coffee plantations in production, aged between 4 and 6 years were selected. In each place, a sampling plot of 1000m² was established in which three recordings were taken in 2015: rainy season, January, transition period, June, and dry season, July. In each sampling plot, three representative coffee plants were selected, which were representative and in each plant, three leaves were selected: one by vertical strata: low, medium and high. The incident radiation photosynthetically active (PARi), stomatal conductance, transpiration and net assimilation of CO2 were measured with a portable photosynthesis system CIRAS 3. The results show that high levels of shade between 48 and 70% negatively affected the photosynthesis rates of coffee plants; whereas with medium levels of shade up to 47% a similar photosynthetic efficiency than plants under full sun was obtained. These results are important inputs to consider in taking decisions for the establishment and management of coffee production systems regarding shade canopy.

Gas exchange in young plants of the species Tabebuia aurea exposed to conditions of induced water stress / Trocas gasosas em plantas jovens de Tabebuia aurea submetidas a condições de estresse hídrico induzido

The paratudo, Tabebuia aurea, is a common Brazilian tree from the Pantanal wetland from Miranda, Mato Grosso do Sul, an area with hydric seasonality. To evaluate the effects of water stress on CO2 exchange, ten-month-old T. aurea seedlings cultivated in planting bags were subjected to water stress by suppressing irrigation for 23 days. Stomatal conductance, transpiration rate, and photosynthetic rate were measured during the stress and recovery period, totaling 28 days, using an infrared portable analyzer. After 23 days without irrigation, the transpiration, stomatal conductance, and net photosynthesis rates in leaflets were zero, while the leaflets water potential reached -2.6 MPa. After this point, daily irrigation was resumed, and the values of the measured variables recovered to the initial levels after 96 hours (transpiration rate from 2.0 to 2.6 mmol m-2 s-1; stomatal conductance rate from 0.12 to 0.18 mol m-2 s-1 and photosynthesis rate from 8.1 to 9.5 µmol m-2 s-1). Furthermore, the hydric potential values were similar to those observed at the beginning of the experiment (-0.5 MPa). The results showed that T. aurea has tolerance to drought, allowing their survival in areas subjected to periodic water stress.

O paratudo, Tabebuia aurea, é uma árvore comumente encontrada no Pantanal de Miranda, Mato Grosso do Sul, uma área com sazonalidade hídrica. Para avaliar o efeito do estresse hídrico sobre as trocas gasosas de CO2, plantas com 10 meses de idade de T. aurea cultivadas em sacos de plantio foram submetidas a estresse hídrico através da supressão de irrigação por 23 dias. Condutância estomática, transpiração e fotossíntese líquida foram medidas durante o período de estresse e recuperação, totalizando 28 dias, com um analisador portátil de gás infravermelho. Depois de 23 dias sem irrigação, as taxas de transpiração, condutância e fotossíntese nas folhas chegaram a zero, enquanto o potencial hídrico das folhas, -2.6 MPa. Depois deste ponto, a irrigação foi retomada e os valores médios das variáveis avaliadas, depois de 96 h, voltaram aos valores iniciais (taxa de transpiração entre 2.0 e 2.6 mmol m-2 s-1; taxa de condutância estomática entre 0.12 e 0.18 mol m-2 s-1 e taxa fotossintética entre 8.1 e 9.5 µmol m-2 s-1). O potencial hídrico também retornou aos valores do início do experimento (-0.5 MPa). Os resultados demonstraram que T. aurea possui tolerância a períodos de seca, permitindo sua sobrevivência em áreas sujeitas a estresse hídrico periódico.

Pérdida de pubescencia foliar y sus efectos fisiológicos en Espeletia paipana(Asterales, Asteraceae), en el departamento de Boyacá-Colombia / Loss of leaf pubescence and its physiological effects on Espeletia paipana (Asterales, Asteraceae), in the Boyacá-Colombia department

Espeletia paipanaes una roseta caulescente gigante en peligro de extinción, endémica del departamento de Boyacá. Con el fin de establecer si una enfermedad en la planta, atribuida a la acción patogénica de microorganismos endófitos y caracterizada por la pérdida de pubescencia foliar (PPF), puede ser causante de la acelerada mortandad poblacional, se evaluó el desempeño fisiológico de la especie con y sin PPF. La incidencia (% de hojas afectadas por cada uno de los 27 individuos de la población actual) y severidad (% de área foliar afectada en 135 hojas) de la PPF fueron monitoreadas durante un periodo de nueve meses, en tres zonas topográficas a diferentes altitudes. Parámetros fisiológicos como conductancia estomática (Gs) y temperatura foliar (Tfol) e índice de contenido de clorofila (ICC) fueron medidos en hojas sanas y enfermas durante cuatro días consecutivos, tanto en la época seca como en la época húmeda. El estudio fue complementado con aislamientos y pruebas de patogenici-dad para identificar el agente causal de la PPF. En general, aunque la incidencia de la enfermedad en E. paipanafue constante a lo largo del tiempo, la severidad avanzó superando el 60 % del área foliar. El aumento de la severidad en el haz fue atribuido al efecto foto-oxidativo de las altas radiaciones entre las 11:00 y14:00 h. La reducción del área foliar funcional a causa de la PPF, llevó a una baja Gs con serias implicaciones en la fijación de carbono, y por tanto limitando el crecimiento y la renovación de biomasa. El efecto estacional en la Tfol varió de acuerdo con la zona topográfica, mientras que el ICC no presentó un patrón definido con relación a la PPF; sus valores bajos podrían estar relacionados con la producción de otros pigmentos. Finalmente, aunque no es posible asegurar que Botrytissp. es el causante de la pérdida de pubescencia foliar, se postula como el agente causal más probable debido a su alta representatividad en los aislamientos y su potencial de infección durante las pruebas de patogenicidad. En general, la reducción de biomasa foliar sana y disminución del rendimiento fisiológico sugieren que la PPF afecta negativamente la sobrevivencia de E. paipana,lo que significa que el uso de biocontroladores podría ser una estrategia para el rescate poblacional.

Espeletia paipanais an endangered giant caulescent rosette endemic to Boyacá department. In order to establish whether a plant disease, characterized by the loss of leaf pubescence (PPF) and attributed to the pathogenic action of endophytic microorganisms, is the cause of the increasing mortality of population, the physiological performance of the species was evaluated with and without PPF. The incidence (% leaves affected in each of the 27 individuals in the current population) and severity (% leaf area affected on 135 leaves) of the PPF were monitored over a period of nine months, in three topographic zones of different heights. During four consecutive days in both dry and wet season, physiological parameters as chlorophyll content index (ICC), stomatal conductance (Gs) and leaf temperature (Tfol) were measured in healthy and affected leaves. The study was complemented with isolations and pathogenicity tests to identify the causal agent of the PPF. Overall, although the disease incidence in E. paipanawas constant over time, the severity progressed surpassing 60 % of the leaf area. The increasing of severity in the upper side of leaves was attributed to the photo-oxidative effect of high radiation between 11:00 h and 14:00 h of the day. The reduction of functional leaf area because of the PPF, led to low Gs with serious implications for carbon fixation and thus limiting growth and biomass renewal. The effect of season in Tfol varied according to the topographic zone, while the ICC did not present a defined pattern with respect to the PPF; its low values could be associated with the production of other pigments. Finally, although it is not possible to ensure that Botrytissp. is the causative of the loss of leaf pubescence, it is postulated as the most probably causal agent due to its high representativeness in the isolates and its infectious potential during the pathogenicity tests. In general, the reduction of healthy leaf biomass and decrease of physiological performance suggest that PPF affect negatively the survival of E. paipana,which means that the use of biological controllers could be a strategy to mitigate its effect on the population.

Restrição fotossintética de plantas de soja sob variação de disponibilidade hídrica / Photosynthetic restriction of soybean plants under variation of water availability

O objetivo do trabalho foi caracterizar o metabolismo primário, com ênfase na atividade fotossintética, de plantas de soja sob diferente disponibilidade hídrica. O experimento foi conduzido em câmara de crescimento com plantas jovens de soja cv. BMX Apolo RR, cultivadas sem restrição hídrica até o estádio de seis folhas trifolioladas expandidas e a sétima folha aberta.Foram estudados cinco níveis de disponibilidade hídrica(-0,004, -0,006, -0,026, -0,042 e -0,164MPa) com oito vasos (repetições) por tratamento. Avaliou-se a assimilação líquida de carbono (AL), condutância estomática (gs) e transpiração (E) na sexta folha de uma planta de cada vaso. Foi determinado o potencial da água na folha, fluorescência da clorofila,conteúdo de clorofila (a, b e total), rendimento quântico e caracterizado o crescimento vegetativo. Potenciais da água no solo de -0,026 MPa comprometem a assimilação líquida de carbono de plantas de soja em função da redução da condutância estomática. Os potenciais aplicados não influenciam na quantidade de pigmentos fotossintéticos e no crescimento vegetativo em situações de breve exposição ao estresse.

The aim of the research was to characterize the primary metabolism, with emphasis on photosynthetic activity, of soybean plants under different water availability conditions. The experiment was conducted in growth chamber with young plants of soybean cv. BMX Apolo RR cultivated without water restriction up to the stage of six leaves expanded and the seventh leaf unfolded. Five levels of water availability were studied (-0.004, -0.006, -0.026, -0.042 and -0.164MPa) with eight pots (replications) per treatment. It was evaluated the net carbon assimilation (AL), stomatal conductance (gs) and transpiration (E) of the sixth leaf of one plant per pot. It was determined the water potential leaf, chlorophyll fluorescence, chlorophyll content (a, b and total), quantum yield and it was characterized the vegetative growth. Soil water potential of -0.026 MPa compromises the net carbon assimilation of soybean plants due to reduction of the stomatal resistance. The potentials applied did not influence in the amount of photosynthetic pigments andin the vegetative growth in situations of short exposition to stress.

Study on leaf transpiration and stomatal structure of medicinal plant Tetrastigma hemsleyanum / 中草药

Objective: Taking annual Tetrastigma hemsleyanum (Tetrastigma Radix) from three habitats, Taizhou, Minhou, and Shunchang, as materials to study the effects of different light intensity stress on the stomatal shape and leaf transpiration. Methods: The stomata, leaf transpiration rate, net photosynthetic rate, and stomal structure of T. hemsleyanum were observed using a scanning [0-2000 μmol/(m2·s)] to explore the optimal light intensity. Results: The stomata with surround and parallel distribution types were only distributed in the lower epidermis in the leaves of T. hemsleyanum; The transpiration rate, stomatal conductance, and net photosynthetic rate of T. hemsleyanum from the two habitat regions (Minhou and Taizhou) by rising after falling with the 30℃ stress, which suggested the stress could make the light intensity heavier. At the same time, the transpiration rate, stomatal conductance, and net photosynthetic rate of T. hemsleyanum from the habitat region Shunchang were rising. The stomatal type of leaves was 600 μmol/(m2·s) in Minhou, and 1900 μmol/(m2·s) in Shunchang, when the water utilization ratio of T. hemsleyanum leaves from the three habitats was higher. Conclusion: Different habitats and light intensity are the important factors of leaves transpiration in natural world, which is more beneficial to the growth of the root crops and suitable for the accumulation of flavonoids in plants.

Características fisiológicas de feijoeiro em competição com plantas daninhas / Physiological characteristics of beans in competition with weed

A competição das plantas daninhas com as culturas reduz o fornecimento de alguns recursos para as espécies, ocasionando deficiências que culminam em alterações nas características fisiológicas relacionadas à fotossíntese, como a deficiência hídrica e nutricional e a baixa qualidade ou quantidade de luminosidade. Assim, objetivou-se com o presente trabalho avaliar o efeito da competição e do manejo de plantas daninhas nas características fisiológicas de plantas de feijoeiro. Utilizou-se delineamento em blocos ao acaso com quatro repetições. Os tratamentos foram: plantas de feijoeiro submetidas à aplicação da mistura de herbicidas fomesafen+fluazifop-p-butyl (Robust®), cultivadas isoladamente e em competição com capim-marmelada (Brachiaria plantaginea), caruru (Amaranthus hybridus) e picão-preto (Bidens pilosa). As plantas de picão-preto foram as que mais afetam as características fisiológicas do feijoeiro, influenciando negativamente o consumo de CO2, a transpiração, a condutância estomática e principalmente a taxa fotossintética. Estes resultados podem estar relacionados ao fato dessa espécie daninha ser altamente eficiente no uso da água. A mistura de herbicidas fomesafen+fluazifop-p-butyl reduziu a taxa fotossintética do feijoeiro.

The weed competition with crops leads to lower supply of some resources for the species, causing deficiencies that culminate in changes in physiological characteristics related to photosynthesis, such as water deficiency and low nutritional quality or quantity of light. So aim with this study was to evaluate the effect of weed competition and management on physiological characteristics of bean plants. The experimental design comprised randomized blocks with four replications. The treatments were: bean plants subjected to the application of the herbicide mixture fomesafen + fluazifop-p-butyl (Robust ®), grown in isolation, in competition with alexandergrass (Brachiaria plantaginea), pigweed (Amaranthus hybridus) and beggar-ticks (Bidens pilosa). The plants are beggartick that most affect the physiological characteristics of bean, negatively influencing the consumption of CO2, transpiration, stomatal conductance and photosynthetic rate mainly for these results may be related to this photo weed be highly efficient water use. The herbicides mixture fomesafen + fluazifop-p-butyl reduced the photosynthetic rate of the bean plants.

Photosynthetic parameters and growth in seedlings of Bertholletia excelsa and Carapa guianensis in response to pre-acclimation to full sunlight and mild water stress / Parâmetros fotossintéticos e crescimento em mudas de bertholletia excelsa e carapa guianensis em resposta a pré-aclimatação a pleno sol e estresse hídrico moderado

Light and water are important factors that may limit the growth and development of higher plants. The aim of this study was to evaluate photosynthetic parameters and growth in seedlings of Bertholletia excelsa and Carapa guianensis in response to pre-acclimation to full sunlight and mild water stress. I used six independent pre-acclimation treatments (0, 90 (11h15-12h45), 180 (10h30-13h30), 360 (09h00-15h00), 540 (07h30-16h30) and 720 min (06h00-18h00)) varying the time of exposure to full sunlight (PFS) during 30 days, followed by whole-day outdoor exposure for 120 days. Before PFS, the plants were kept in a greenhouse at low light levels (0.8 mol m-2 day-1). The PFS of 0 min corresponded to plants constantly kept under greenhouse conditions. From the beginning to the end of the experiment, each PFS treatment was submitted to two water regimes: moderate water stress (MWS, pre-dawn leaf water potential (L) of -500 to -700 kPa) and without water stress (WWS, L of -300 kPa, soil kept at field capacity). Plants under MWS received only a fraction of the amount of water applied to the well-watered ones. At the end of the 120-day-period under outdoor conditions, I evaluated light saturated photosynthesis (Amax), stomatal conductance (g s), transpiration (E) and plant growth. Both Amax and g s were higher for all plants under the PFS treatment. Stem diameter growth rate and Amax were higher for C. guianensis subjected to MWS than in well-watered plants. The contrary was true for B. excelsa. The growth of seedlings was enhanced by exposure to full sunlight for 180 minutes in both species. However, plants of B. excelsa were sensitive to moderate water stress. The higher photosynthetic rates and faster growth of C. guianensis under full sun and moderate water stress make this species a promissory candidate to be tested in reforestation programs.

A luz e a água são importantes fatores que limitam o crescimento e o desenvolvimento das plantas. O objetivo deste estudo foi avaliar os paâmetros fotossintéticos e o crescimento em mudas de Bertholletia excelsa e Carapa guianensis em resposta a pré-aclimatação à luz solar plena e estresse hídrico moderado. Foram usados seis independentes tratamentos de pré-aclimatação a pleno sol (PFS), sendo estes de (0, 90 (11h15-12h45), 180 (10h30-13h30), 360 (09h00-15h00), 540 (07h30-16h30) e 720 min (06h00-18h00)) durante 30 dias seguidos por um período de exposição a pleno sol de 120 dias durante o dia todo. Antes da PFS, as plantas foram mantidas em casa de vegetação a baixos níveis de luz (0,8 mol m-2 dia-1). O PFS de 0 min correspondeu às plantas mantidas constatemente na casa de vegetação. Cada tratamento de PFS foi submetido desde o início até o final do experimento a dois regimes hídricos, denominado de estresse hídrico moderado (MWS, potencial hidrico da folha medido antes do amanhecer (ΨL) de -500 a -700 kPa) e sem estresse hídrico (WWS , ΨL de -300 kPa, solo mantido na capacidade de campo). As plantas do tratamento MWS receberam apenas uma fração do volume de água fornecido para aquelas do tratamento WWS. No final do período de 120 dias foi avaliada a fotossíntese saturada por luz (Amax), a condutância estomática (gs), transpiração (E) e o crescimento. Amax e gs foram maiores em todas as plantas sob o tratamento de PFS. A taxa de crescimento em diâmetro e Amax foram maiores em plantas de C. guianensis submetidas à MWS. O contrário foi observado em B. excelsa. O crescimento das mudas foi maior nas plantas expostas à luz solar em 180 minutos em ambas as espécies. Entretanto, as plantas de B. excelsa foram mais sensíveis ao estresse hídrico moderado. C. guianensis foi à especie que teve melhor desempenho fotossintético e crescimento sob estresse hídrico moderado e luz solar plena...

Photosynthetic capacity and water use efficiency in sugarcane genotypes subject to water deficit during early growth phase

The objective of this study was to compare the gas exchange, photosynthetic capacity and water potential of sugarcane genotypes cultivated under water deficit conditions imposed during the initial growth phase. Experiments were performed in a greenhouse using two sugarcane genotypes namely: HoCP93-776 (drought susceptible) and TCP02-4587 (drought tolerant). Sixty days after planting, two different water treatments were applied (i.e., with or without water deficit). At 0,30 and 60 days after the treatment, gas exchange variables were evaluated for their relationship with water use, intrinsic instantaneous water use efficiency and instantaneous carboxylation efficiency. The SPAD index, photosynthetic pigments, water potential and relative water content in the leaves were also analyzed. The genotype HoCP93-776 was more sensitive to drought treatment as indicated by the significantly lower values of SPAD index, photosynthetic pigments, water potential (Ψw) and relative water content (RWC) variables. The genotype TCP02-4587 had higher water potential, stomatal control efficiency, water use efficiency (WUE), intrinsic instantaneous water use efficiency (WUEintr), instantaneous carboxylation efficiency and photosynthetic capacity. The highest air vapor pressure deficit during the drought conditions could be due to the stomatal closing in the HoCP93-776, which contributed to its lower photosynthetic capacity.

Drought induced changes in growth, leaf gas exchange and biomass production in Albizia lebbeck and Cassia siamea seedlings.

Diurnal trends in net photosynthesis rate (PN ), stomatal conductance (gs ), water use efficiency (WUE) and biomass were compared in six-month-old seedlings of Albizia lebbeck and Cassia siamea, under different levels of drought stress. The potted plants were subjected to four varying drought treatment by withholding watering for 7 (D1), 14 (D2) and 25 (D3) days. The fourth group (C) was watered daily and treated as unstressed (control). Species differed significantly (p<0.001) in their physiological performance under varying stress conditions. Higher PN of 11.6 ± 0.05 in control followed by 4.35 ± 0.4 in D1 and 2.83 ± 0.18 @mol m-2 s-1 in D2 was observed in A. lebbeck. A significant (p<0.001) reduction in PN was observed in C. siamea ( C 7.65 ± 0.5 @mol m-2 s-1, D1, 2.56 ± 0.33 @mol m-2 s-1 and D2, 1.4 ± 0.01 @mol m-2 s-1 ) at 9 hr. A positive correlation was seen between PN and gs (A. lebbeck, r2= 0.84; C. siamea, r2= 0.82). Higher WUE was observed in C. siamea (D2, 7.1± 0.18 @mol m-2 s-1; D3, 8.39 ± 0.11 @mol m-2 s-1) than A. lebbeck, (control, 7.58 ± 0.3 @mol m-2 s-1 and D3, 8.12 ± 0.15 @mol m-2 s-1). The chlorophyll and relative water content (RWC) was more in A. lebbeck than C. siamea. Maximum biomass was produced by A. lebbeck than C. siamea. From the study, one could conclude that A. lebbeck is better than C. siamea in adopting suitable resource management strategy and be best suited for the plantation programs in the semi-arid dry lands.

Elevated CO2 influences photosynthetic characteristics of Avena sativa L cultivars.

The impact of elevated CO2 concentration on the growth, photosynthesis and biomass production was investigated in three oat (Avena sativa L) cultivars viz. Kent, JHO-822 and JHO-851 by growing under three environmental conditions i.e. elevated CO2 at 600 ± 50 μ mol mol-1 (C600), OTC with ambient CO2 (COTC) and under open field condition (Ca). Plant height and leaf area increased in the elevated CO2 grown plants. JHO-822 attained maximum height under C600 followed by Kent and JHO-851. The specific leaf mass (SLM) and specific leaf area (SLA) were also influenced significantly when the plants were grown under C600. Kent showed highest SLM under C600 corresponding lower value of SLA. The accumulation of soluble protein in the oat leaves decreased under C600 except JHO-822 where marginal increase in soluble protein was recorded under C600. JHO-822 showed an increase in Chl orophyll a, b and total in C600 over Ca, whereas other two cultivars did not follow any specific trend in the pigment accumulation. Our results confirmed that the net phosynthetic rate (PN) increased by 37% in Kent followed by JHO 822 under elevated CO2 over the control. This strong association of PN with gs was evidenced by a positive significant correlation (r=0.885**). A clear stimulatory effect at elevated CO2 was detected in all the cultivars in term of green and dry matter production than at ambient CO2 and COTC. A large increase in PN in the present investigation was accompanied by relatively small decrease in gs, which limits the water loss through transpiration rate. The elevated CO2 induced changes in gs and reduction in transpiration.

Gas exchange in Paulownia species growing under different soil moisture conditions in the field.

In order to evaluate their responses to drought, we determined the photosynthetic activity, water potential, stomatal conductance, transpiration, water use efficiency, photosynthetic photon flux density and leaf temperature of Paulownia imperialis, P. fortunei and P. elongata in three different soil moisture conditions in the field. Our results showed that P. imperialis had greater photosynthesis (8.86 µmol CO2 m-2 s-1) and instantaneous water use efficiency (0.79 µmol CO2mmol H2O-1) than either P. elongata (8.20 µmol CO2 m-2 s-1 and 0.71 µmol CO2 mmol H2O-1) or P. fortunei (3.26 µmol CO2m-2 s-1and 0.07 µmol CO2mmol H2O-1). The rapid growth of Paulownia did not appear to be correlated with photosynthetic rates. Paulownia fortunei showed more transpiration (48.78 mmol H2O m-2 s-1) and stomatal conductance (840 mmol m-2 s-1) than P. imperialis (20 mmol H2O m-2 s-1 and 540 mmol m-2 s-1) and P. elongata (20 mmol H2O m-2 s-1 and 410 mmol m-2 s-1), which allowed these two Paulownia species to increase their tolerance to low soil moisture, and maintain higher water use efficiency under these conditions. According to our physiological gas exchange field tests, Paulownia imperialis does appear to be capable of successful growth in semiarid zones.

Physiological performance, yield, and quality of dry bean seeds under drought stress / Comportamiento fisiológico, rendimiento y calidad de semilla de frijol sometido a sequía / Comportamento fisiológico, rendimento e qualidade da semente do feijão submetido à seca

Net photosynthesis (A), respiration (RE), stomatal conductance (gs), transpiration rate (E), yield, and its components, as well as physical and physiological quality of seeds were evaluated on dry bean (Phaseolus vulgaris L.) plants cv. ‘Otomí’, subjected to drought stress during the stages of flowering (F), pod formation (PF) and seed filling (SF). After 3 days under drought stress, gs, E and A decreased by more than 50% at F, PF and SF, respectively; after 10 days of stress, there was total inhibition of those processes, whereas the maximum reductions showed by RE were 42, 62, and 85% in F, PF and SF, respectively. Drought stress induced seed yield reductions of 10, 57, and 50% at F, PF and SF, respectively. High yield losses at PF and SF were caused by reductions in the number of seeds and pods per plant and seeds per pod. At the SF stage the loss in yield was moderate, because at this stage the plants were able to form new leaves and delay pod formation until water stress was over. The physiological quality was not affected by drought stress, even though the weight of 1000 seeds was reduced by about 10%.

Se evalúo la fotosíntesis neta (A), respiración (RE), conductancia estomática (gs), tasa de transpiración (E), rendimiento y sus componentes, así como la calidad física y fisiológica de semillas de plantas de frijol (Phaseolus vulgaris L.) cv. ‘Otomí’ sometidas a sequía durante las etapas de floración (F), formación de vaina (FV) y llenado de semilla (LLS). Después de 3 días de sequia, gs, E y A disminuyeron en más de 50% en F, FV y LLS, respectivamente; después de 10 días de estrés hubo inhibición total de estos procesos, mientras que las reducciones máximas mostradas por RE fueron de 42, 62 y 85% en F, FV y LLS, respectivamente. La sequía propició reducciones en el rendimiento de semilla de 10, 57 y 50% en F, FV y LLS, respectivamente. Las altas pérdidas de rendimiento en FV y LLS se debieron a las reducciones en número de semillas, de vainas por planta y de semillas por vaina. En F la disminución en rendimiento fue moderada, debido a que en esta etapa las plantas formaron nuevas hojas y retardaron la formación de vainas cuando terminó la sequía. La calidad fisiológica de las semillas no resultó afectada por la sequía, aun cuando el peso de 1000 semillas tuvo una reducción de casi 10%.

Avaliou-se a fotossíntese neta (A), respiração (RE), condutância estomática (gs), taxa de transpiração (E), rendimento e seus componentes, assim como a qualidade física e fisiológica de sementes de plantas de feijão (Phaseolus vulgaris L.) cv. ‘Otomí’ submetidas à seca durante as etapas de floração (F), formação de vagens (FV) e enchimento da semente (LLS). Depois de 3 dias de seca, gs, E e A diminuiram em mais de 50% em F, FV e LLS, respectivamente; depois de 10 dias de estresse houve inibição total destes processos, enquanto que as reduções máximas mostradas por RE foram de 42, 62 e 85% em F, FV e LLS, respectivamente. A seca propiciou reduções no rendimento da semente de 10, 57 e 50% em F, FV e LLS, respectivamente. As altas perdas de rendimento em FV e LLS foram devido às reduções em número de sementes, de vagens por planta e de sementes por vagem. Em F a diminuição no rendimento foi moderada, devido a que nesta etapa as plantas formaram novas folhas e retardaram a formação de vagens quando terminou a seca. A qualidade fisiológica das sementes não resultou afetada pela seca, mesmo quando o peso de 1000 sementes teve uma redução de quase 10%.

Alterações das características fisiológicas da bananeira sob condições de fertirrigação / Alteration of the physiologic characteristics in banana under fertirrigation conditions

A aplicação de fertilizantes via sistema de irrigação tem se tornado uma prática importante para o suprimento de nutrientes na fruticultura. No entanto, é necessário estudar o efeito dessa aplicação sobre a fisiologia da bananeira a fim de aumentar a eficiência do uso desses insumos. O objetivo deste trabalho foi estudar os efeitos de doses de nitrogênio e potássio, via água de irrigação, sobre as características fisiológicas da bananeira, cultivar 'Prata-Anã', nos tabuleiros costeiros do Estado de Sergipe. O experimento foi conduzido no campo, utilizando um fatorial 4x4 com quatro blocos casualizados, na Estação Experimental da Universidade Federal de Sergipe. Foram testados dois fatores: nitrogênio (0; 250; 500 e 750, em kg ha-1 de N, na forma de uréia) e potássio (0; 290; 580 e 870, em kg ha-1 de K2O, na forma de cloreto de potássio). Foram determinadas: a taxa de assimilação de CO², a transpiração, a condutância estomática, a concentração interna de CO² e as eficiências no uso da água e da carboxilação. A condutância estomática foi reduzida, principalmente, na fertilização com 700kg ha-1 de N e na ausência de K, afetando as trocas gasosas e, conseqüentemente, o processo fotossintético. Em situações de maior disponibilidade de potássio, as bananeiras necessitam de menores quantidades de nitrogênio para manutenção da eficiência no uso da água, como conseqüência da melhoria no ajuste estomático.

Fertilizer application through the irrigation system, has become an important way to supply nutrients to fruit trees. However, it is necessary to study its effects on the banana tree physiology, in order to improve fertilizer use efficiency. The objective of this study was to evaluate doses of nitrogen and potassium through irrigation water, on the physiological characteristics of the banana tree, cv. 'Prata-Anã', in the coastal tablelands of Sergipe State. The experiment was established in the field, using a 4² factorial with four randomized blocks, at the Sergipe Federal University Experimental Station. Two factors were tested: nitrogen (0; 250; 500 and 750, in kg ha-1 of N, as urea) and potassium (0; 290; 580 and 870, in kg ha-1 of K2O, as potassium chloride). Rate of net CO² assimilation, transpiration, stomatal conductance, internal leaf CO² concentration, water use efficiency and carboxylation efficiency were determined. The stomatal conductance was reduced in the fertilization with 700kg ha-1 of N and absence of K, affecting the gas exchanges and, consequently, the photosynthesis. In situations of higher potassium readiness, the banana trees need smaller amounts of nitrogen in order to maintain the efficiency in the water use, as consequence of the best stomatal adjustment.

Respostas fisiológicas ao déficit hídrico em duas cultivares enxertadas de seringueira ("RRIM 600" e "GT 1") crescidas em campo / Physiological responses to water deficit in two young field-grown scion rubber ('RRIM 600' and 'GT 1')

Sob condições de campo, as plantas estão sujeitas a períodos de déficit hídrico no solo e na atmosfera, durante todo o seu ciclo de vida. Foi avaliado o desempenho de duas cultivares enxertadas de seringueira ("RRIM 600" e "GT 1"), mantidas na UNESP-IBILCE, em São José do Rio Preto, SP, com e sem suplementação hídrica, a partir da idade de quatro meses. A resistência máxima ao período seco ininterrupto, considerada quando cessou a realização de fotossíntese com ganho líquido, foi de 17 e 20 dias, respectivamente. Trinta e três dias após a suspensão do estresse, a recuperação das trocas gasosas foi bastante similar para as duas cultivares, e apenas a concentração de dióxido de carbono intercelular retornou a valores equivalentes aos dos controles. Apenas o incremento relativo da área foliar, para "GT 1", e da altura, para "RRIM 600", não diferiram aos do grupo controle (P=0,05). As curvas de resposta à luz indicaram, para ambos os clones, decréscimos para a irradiância de compensação e a taxa fotossintética (P=0,05). Embora parcial, a melhor recuperação após o estresse foi verificada para "GT 1".

During their life cycle, plants growing under field condition are subject to periods of air and soil water deficits. In this study was evaluated the performance of two scion cultivar of rubber tree ('RRIM 600' and 'GT 1') growing in São José do Rio Preto, SP, with and without water supplementation since the age of 4 months. The maximum resistance to the uninterrupted dry period, considered when net photosynthesis was ceased, was 17 and 20 days, respectively. Thirty-three days later the water stress was ceased, the gas exchange recovery for both cultivars were quite similar, but just the intercellular carbon dioxide concentration returned to similar values of the control group. Only the relative increment of leaf area to 'GT 1', and plant height of 'RRIM 600' was similar to the control group (P=0.05). The light curve response showed, for both clones, decrease of the compensation irradiance and photosynthetic rate (P=0.05). Although partial, the best recovery after water stress was observed for 'GT 1'.

Intensity of bitterness of processed yerba mate leaves originated in two contrasted light environments

The bitterness intensity of beverage prepared from the leaves produced on the males and females of yerba mate (Ilex paraguariensis), grown in the forest understory and monoculture, was evaluated. The leaves were grouped by their position (in the crown and on the branch tips) and by the leaf age. The leaf gas exchange, leaf temperature and photosynthetic photon flux density were observed. Inter and intra-specific competition for light and self-shading showed the same effect on yerba mate beverage taste. All the shading types resulted in bitterer taste of the processed yerba mate leaves compared to the leaves originated under the direct sun exposure. The leaves from the plants grown in the monoculture showed less bitterness than those grown in the forest understory. This conclusion was completely opposite to the conventionally accepted paradigm of the yerba mate industries. The leaves from the tips (younger leaves) of the plants grown in the monoculture resulted a beverage of softer taste; the males produced less bitter leaves in any light environment (forest understory or in the crown in monoculture). The taste was related to the photosynthetic and transpiration rate, and leaf temperature. Stronger bitterness of the leaves provided from the shade conditions was related to the decreased leaf temperature and transpiration in the diurnal scale.

Mediu-se a intensidade de amargor da bebida preparada a partir de folhas da erva-mate (Ilex paraguariensis) de diversas idades, situadas em duas posições na copa (interior e ponteiras), produzidas por plantas masculinas e femininas cultivadas na floresta antropizada e em monocultura. As trocas gasosas foliares, a temperatura de folhas e a densidade de fluxo de fótons fotossinteticamente ativos também foram medidas. Com isso verificou-se que a idéia corrente de que o sombreamento está diretamente relacionado ao sabor suave do chimarrão é completamente equivocada, já que as competições inter- e intra-específicas por luz e auto-sombreamento provocaram o mesmo efeito no sabor do chimarrão, isto é, todos os tipos de sombreamento resultaram em sabor mais amargo de folhas processadas do de pleno sol. Assim, as folhas de plantas cultivadas em monocultura mostraram-se menos amargas do que aquelas de plantas manejadas sob a floresta. Além disso, as folhas de ponteiras (mais jovens) da monocultura originaram o chimarrão mais suave e os machos produziram folhas menos amargas que as fêmeas em ambos ambientes luminosos (floresta e monocultura). O sabor mostrou-se relacionado à fotossíntese, à transpiração e à temperatura de folha. Em sombreamento a modificação de sabor foi direcionada ao aumento de amargor e, aparentemente, relacionada ao decréscimo da temperatura de folhas e da transpiração na escala diurna.