ABSTRACT
ABSTRACT: Chlorophyll is a major factor affecting photosynthesis; and consequently, crop growth and yield. In this study, we devised a chlorophyll-content detection model for millet leaves in different stages of growth based on hyperspectral data. The hyperspectral images of millet leaves were obtained under a wavelength range of 380-1000 nm using a hyperspectral imager. Threshold segmentation was performed with near-infrared (NIR) reflectance and normalized difference vegetation index (NDVI) to intelligently acquire the regions of interest (ROI). Furthermore, raw spectral data were preprocessed using multivariate scatter correction (MSC). A correlation coefficient-successive projections algorithm (CC-SPA) was used to extract the characteristic wavelengths, and the characteristic parameters were extracted based on the spectral and image information. A partial least squares regression (PLSR) prediction model was established based on the single characteristic parameter and multi-characteristic parameter fusion. The determination coefficient (Rv 2) and the root-mean-square error (RMSEv) of the validation set for the multi-characteristic parameter fusion model were reported to be 0.813 and 1.766, respectively, which are higher than those obtained by the single characteristic parameter model. Based on the multi-characteristic parameter fusion, an attention-convolutional neural network (attention-CNN) (Rv 2 = 0.839, RMSEv = 1.451, RPD = 2.355) was established, which is more effective than the PLSR (Rv 2 = 0.813, RMSEv = 1.766, RPD = 2.167) and least squares support vector machine (LS-SVM) models (Rv 2 = 0.806, RMSEv = 1.576, RPD = 2.061). These results indicated that the combination of hyperspectral imaging and attention-CNN is beneficial to the application of nutrient element monitoring of crops.
RESUMO: A clorofila é um fator importante que afeta a fotossíntese e, consequentemente, o crescimento e o rendimento das culturas. Neste estudo, um modelo de detecção de conteúdo de clorofila é construído para folhas de milheto em diferentes estágios de crescimento, com base em dados hiperespectrais. As imagens hiperespectrais dos diferentes estágios de crescimento das folhas de milheto foram obtidas para 380-1000 nm, utilizando um gerador de imagens hiperespectrais. Uma segmentação de limiar foi realizada com refletância no infravermelho próximo (NIR) e índice de vegetação com diferença normalizada (NDVI) para adquirir de forma inteligente as regiões de interesse (ROI). Além disso, os dados espectrais brutos foram pré-processados usando o método de correção de dispersão multivariada (MSC). Um algoritmo de projeção de coeficiente de correlação sucessivo (CC-SPA) foi utilizado para extrair os comprimentos de onda característicos, e os parâmetros característicos foram extraídos com base nas informações espectrais e de imagem. O modelo de previsão de regressão parcial dos mínimos quadrados (PLSR) foi estabelecido com base nos parâmetros de característica única e na fusão de parâmetros de característica múltipla. O coeficiente de determinação (Rv2) e o erro quadrático médio da raiz (RMSEv) do conjunto de validação para o modelo de fusão de parâmetros com várias características foram obtidos como 0,813 e 1,766, sendo melhores do que os do modelo de parâmetro de característica única. Com base na fusão de parâmetros com várias características, foi estabelecida uma rede neural atenção-convolucional (atenção-CNN) (Rv2 = 0,839, RMSEv = 1,451, RPD = 2,355) mais eficaz que o PLSR (Rv2 = 0,813, RMSEv = 1,766, RPD = 2,167) e mínimos quadrados que suportam modelos de máquina de vetores (LS-SVM) (Rv2 = 0,806, RMSEv = 1,576, RPD = 2,061). Estes resultados indicam que o modelo atenção-CNN atinge uma previsão efetiva do teor de clorofila nas folhas de milheto usando os dados hiperespectrais. Além disso, esta pesquisa demonstra que a combinação de imagens hiperespectrais e a atenção-CNN se mostra benéfica para a aplicação do monitoramento dos elementos nutricionais das culturas.
ABSTRACT
Aim: To evaluate different micro-irrigation systems against basin irrigation in terms of growth, yield, fruit quality, disease infestation and water use of pomegranate under semi-arid tropical climate of Central India. Methodology: A field experiment was conducted in newly planted pomegranate cv. Bhagwa orchard with four irrigation treatments, viz., drip (4 lph, 4 plant-1), microjet 180o (2 plant-1), microjet 360o (2 plant-1) and basin (double ring) irrigation replicated five times in a randomised block design (RBD) in heavy textured soil. Results: Basin irrigation is widely practiced method of irrigation which presently facilitate better soil moisture distribution, resulted in better root proliferation and higher leaf nutrient status (K 0.98%, Cu 105.4 ppm and Zn 35.9 ppm) followed by drip (N 2.12% and Mn 40.4 ppm) system of irrigation. Maximum fruit yield was obtained under basin and drip which was 376.7% and 242.8% higher than that obtained under microjet 180o irrigation system, respectively. Water use efficiency was highest in drip (0.526) than basin (0.499) system of irrigation. Disease incidence in the plants was less under drip while it was high under microjet system of irrigation. Interpretation: Experimental findings clearly indicate that the areas which had ample amount of irrigation, basin irrigation was the most efficient system in harnessing maximum yields, while drip irrigation resulted in higher water use efficiency under arid to semiarid tropical climate, micro-sprinkler irrigation system is not beneficial for pomegranate orchards.
ABSTRACT
As an important signal molecule, extracellular ATP(eATP) can regulate many physiological and biochemical responses to plant stress. In this study, the regulation of extracellular ATP(eATP) on chlorophyll content and chlorophyll fluorescence parameters of Angelica sinensis seedlings were studied under drought and low temperature stress. The results showed that all the chlorophyll content, the actual photochemical efficiency [Y(Ⅱ)], the electron transfer rate(ETR), the photochemical quenching coefficient(qP and qL) of A. sinensis leaves were significantly decreased under drought and low temperature stress, respectively. At the same time, non-photochemical quenching(NPQ and qN) were also all significantly increased, respectively. The application of eATP alleviated the decrease of chlorophyll content, Y(Ⅱ), ETR, qP and qL of A. sinensis leaves under drought and low temperature stress, and eliminated the increase of qN and NPQ. The results indicated that eATP could effectively increase the open ratio of PSⅡ reaction centers, and improve the electron transfer rate and light energy conversion efficiency of PSⅡ of A. sinensis leaves under drought and low temperature stress. It is beneficial to enhance the chlorophyll synthesis and the adaptability of PSⅡ about A. sinensis seedlings to drought and low temperature stress.
Subject(s)
Adenosine Triphosphate , Pharmacology , Angelica sinensis , Chemistry , Physiology , Chlorophyll , Cold Temperature , Droughts , Fluorescence , Photosynthesis , Plant Leaves , Chemistry , Seedlings , Chemistry , Physiology , Stress, Physiological , WaterABSTRACT
The presence of genotypic differences in performances under soil water deficit would help plant breeders in initiating successful breeding programs to improve drought tolerance. The objectives of the present study were: (i) to assess the effects of genotype, water stress and their interaction on maize agronomic, physiologic and yield traits and (ii) to identify drought tolerant genotypes for use in future breeding programs. Fifteen commercial hybrids and seven breeding populations were evaluated in the field for two seasons under water stress at flowering (WSF) and grain filling (WSG) compared to well watering (WW). A split plot design with three replications was used. Data analysed across seasons revealed a significant reduction in grain yield/plant (28.69 and 20.26%), grain yield/ha (35.53 and 25.51%), chlorophyll concentration index (30.18 and 44.07%) and 100-kernel weight (6.75 and 12.36%) due to water stress under WSF and WSG, respectively, a significant reduction in ears/plant (11.58%), kernels/row (14.23%), kernels/plant (24.85%) due to water stress under WSF and in upper stem diameter (18.46%) due to water stress under WSG, but a significant increase in days to silking (3.50%), anthesis silking interval (21.17%) and barren stalks (26.18%) due to water stress under WSF. Rank of genotypes differed from one irrigation regime to another for most studied traits. The highest yielding genotypes were Eg-77, P-3444, SC-128 and HT-2066 under WSF and P-3444, SC-128, TWC-324 and SC-166 under WSG, in a descending order. These genotypes could be offered to maize breeding programs for developing drought tolerant inbred and hybrids.
ABSTRACT
Waterlogging stress is a limiting factor in the production of crops grown in localities with high rainfall frequency. Waterlogging causes a decrease in the availability of O2 in roots, which substantially affects the anatomy, morphology and metabolism of plants. Oxygen deficiency inhibits mitochondrial respiration, oxidation, and oxygenation processes, causing severe affection of plant metabolism. A test in greenhouse conditions was carried out in Tunja, Colombia, in order to evaluate the effect of waterlogging on the growth of cabbage plants (Brassica oleracea var. capitata). Some plants were waterlogged for 25 days and their physiological response was compared with plants maintained at field capacity. As consequence of waterlogging, leaf area, total dry weight, chlorophyll content, leaf area ratio, absolute growth rate and relative growth rate were reduced. In addition, necrotic plants exhibited a high percentage of necrosis in the leaves. As for the variables related to chlorophyll fluorescence, there was a decrease of 17,9, 50,0 and 36,0% in the Fv/Fm values, ΦPSII and qP, respectively. All of these results indicate low tolerance of cabbage plants to waterlogging.
El estrés por encharcamiento es un factor limitante en la producción de algunos cultivos que se desarrollan en localidades, con alta frecuencia de lluvias. El encharcamiento causa disminución en la disponibilidad de O2 en las raíces, lo cual, afecta sustancialmente la anatomía, la morfología y el metabolismo de las plantas. El déficit de oxígeno inhibe la respiración mitocondrial, la oxidación y los procesos de oxigenación, con lo cual, el metabolismo de la planta resulta severamente afectado. Se desarrolló en Tunja, Colombia, un ensayo en condiciones de invernadero, con el propósito de evaluar el efecto del encharcamiento sobre el crecimiento de plantas de repollo (Brassica oleracea var. capitata). Algunas plantas fueron encharcadas durante 25 días y su respuesta fisiológica se comparó con la de plantas mantenidas a capacidad de campo. Como consecuencia del encharcamiento, se redujo el área foliar, el peso seco total, el contenido de clorofila y los valores de la relación de área foliar, de la tasa absoluta de crecimiento y de la tasa relativa de crecimiento. Adicionalmente, solo en las plantas expuestas al encharcamiento, se presentó necrosis en las hojas, en un alto porcentaje. En cuanto a las variables relacionadas con la fluorescencia de la clorofila, se registró una disminución de 17,9; 50,0 y 36,0%, en los valores de Fv/Fm, ΦPSII and qP, respectivamente. El conjunto de estos resultados indica baja tolerancia de las plantas de repollo al encharcamiento.
ABSTRACT
ABSTRACT: Nitrogen (N) is the main nutrient responsible for the green coloration of lawns but also stimulates the growth of the aerial portion of grass, thus increasing mowing expenses. Therefore, herbicides may be used as a growth regulator. The ideal herbicide will reduce lawn height without affecting esthetics. Toward this end, the aim of the present study was to evaluate the green coloration of Emerald grass ( Zoysia japonica Steud.) under the effect of different N doses or herbicides used as growth regulators. The study site consisted of randomized blocks containing 20 treatments arranged in a 5×4 factorial design with four treatment groups: four herbicides (glyphosate, imazaquin, imazethapyr, and metsulfuron-methyl, accounting for 200, 420, 80, and 140g ha-1 of the active ingredient, respectively) and the control sample (no herbicide); and three doses of N in the form of urea (5, 10, and 20g m-2), divided into five applications per year, in addition to a treatment without N. Leaf chlorophyll content (LCC) was assessed and the aerial portion of the lawn was measured with digital image analysis. Doses of N ranging from 10 to 20g m-2, divided into five applications a year, provided the lawn with intense green coloration, and the herbicides glyphosate (200g ha-1), imazaquin (420g ha-1), and imazethapyr (80g ha-1) were reported to be suitable for use as growth regulators of the study species, considering maintenance of esthetic quality (green coloration). The digital image analysis of the aerial portion provided more accurate results than use of a chlorophyll meter with regard to the recommendation of both N dose and herbicides to be used as growth regulators of Emerald grass.
RESUMO: Embora o nitrogênio (N) seja o principal nutriente responsável pela coloração verde dos gramados, o mesmo estimula o crescimento da parte aérea, resultando em maior dispêndio com cortes. Assim, a utilização de herbicidas como reguladores de crescimento seria alternativa, sendo ideal aquele que reduzisse a altura sem afetar a estética do gramado. Diante do exposto, objetivou-se avaliar a coloração verde da grama esmeralda ( Zoysia japonica Steud.) sob o efeito de doses de N e do uso de herbicidas como reguladores de crescimento. Utilizou-se o delineamento em blocos casualizados com 20 tratamentos dispostos num fatorial 5x4 com quatro repetições, sendo quatro herbicidas: glyphosate, imazaquin, imazethapyr e metsulfuron-methyl (200, 420, 80 e 140g ha-1 do ingrediente ativo (i.a.), respectivamente) e a testemunha (sem herbicida); e três doses de N na forma de ureia: 5, 10 e 20g m-2, parceladas em cinco aplicações ao ano, além do tratamento sem N. Avaliaram-se o índice de clorofila foliar (ICF) e a análise por imagem digital da parte aérea do gramado. Doses de 10 a 20g m-2 de N, parceladas em cinco vezes ao ano, propiciaram coloração verde intensa do gramado e os herbicidas glyphosate (200g ha-1), imazaquin (420g ha-1) e imazethapyr (80g ha-1) foram adequados para utilização como reguladores do crescimento da espécie estudada, considerando a qualidade estética (cor verde). A análise por imagem digital da parte aérea forneceu resultados mais precisos que o uso do clorofilômetro, quanto à recomendação da dose de N, bem como dos herbicidas a serem utilizados como reguladores de crescimento da grama esmeralda.
ABSTRACT
Aims: Capsicum annuum (pepper) is one of the most important crops in the world. It contains an impressive list of phytonutrients that were found to have disease-preventing and health-promoting properties. Today, they are grown widely in many parts of the world as an important commercial crop. However, fungal infection is the main problem that leads to the common pepper disruptive disease, known as the Anthracnose, which lowers the yields of this plant. Therefore, this study was conducted to determine the growth, enzymatic antioxidant specific activities of catalase (CAT), ascorbate peroxidase (APX), and guaiacol peroxidase (g-POD) as well as non-enzymatic antioxidants including ascorbic acid, α-tocopherol and carotenoids content in C. annuum as a response to the fungal infections by Colletotrichum capsici. Methodology and results: The assays were conducted at 0, 1, 2, 3, 4 and 5 weeks of fungal treatment periods. The results showed that plant growth (plant height, leaves number, length and width, chlorophyll content) was significantly lower in treated plants compared to controls. The CAT specific activity increased drastically at the early stages of the experiment and decreased thereafter. In contrast, the APX and g-POD specific activity were initially lower, but increased significantly at the later stages of the experiment. For the non-enzymatic antioxidants, the amount of ascorbic acid, α- tocopherol and carotenoids content were significantly higher at the first week of treatment and slowly reduced afterwards. Conclusion, significance and impact of study: This study shows that fungal infection inhibited the growth of pepper plants and the enzymatic and non-enzymatic antioxidants worked in concert to fight against the stress caused by the fungal infection, with their different specific roles in removing and reducing the reactive oxygen species in stress condition.
Subject(s)
CapsicumABSTRACT
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.
Subject(s)
Asteraceae/physiology , Endangered Species , Plant Leaves/physiology , Asteraceae/classification , Colombia , Light , Plant Leaves/classification , Seasons , TemperatureABSTRACT
Centella asiatica is a valuable medicinal plant with abundant amount of pharmaceutically useful compounds; however, it is important to know the proper physiological age for drug formulation. In the present study, smaller to larger thirteen groups of Centella asiatica leaves were evaluated for growth, chlorophyll content and antioxidant activity. The growth was measured in the terms of leaf area, fresh and dry weights and water content. Maximum antioxidant activity was found in third size group of the leaf which was further analyzed for phenolics in RP-HPLC. The probable role of these phenols in antioxidant activities is discussed.
ABSTRACT
Aspasia variegata occurs naturally in the savanna of the Mato Grosso do Sul State, Brazil and it has been widely collected for its beautiful flowers. Additionally, its habitat has been greatly reduced and little or no investigation of its spread has been performed. Aiming to establish a protocol to obtain seedlings of the orchid A. variegata, different compositions of culture medium were tested to identify which one provided better in vitro growth and development and to assess the influence of these media in seedling acclimatisation. Thus, seeds obtained from mature capsules were inoculated in Knudson culture medium for 120 days until the protocorm stage. They were transferred to different culture media formulations, including MS and Knudson with half or full formulation, and 3.0 and 6.0g L-1 activated charcoal were added to them or not. After 180 days of protocorm inoculation, seedlings were evaluated for length of roots and shoots, number of roots and leaves, and chlorophyll contents. After that, seedlings were transferred to trays containing a mixture of Plantmax® and coconut fibre (1:1) for acclimatisation. Best results for the in vitro growth of A. variegata were obtained with the use of MS medium supplemented with 6.0g L-1 activated charcoal. Higher levels of chlorophyll were obtained, however, in treatments containing MS salts without activated charcoal presence, and lower levels in media containing Knudson salts with the presence of activated charcoal. The seedlings originated by higher chlorophyll levels during in vitro cultivation presented the highest survival rates and better development in the acclimatisation phase.
A orquídea Aspasia variegata ocorre naturalmente no Cerrado Sul-Matogrossense, e tem sido bastante coletada de seu habitat, devido à beleza de suas flores. Adicionalmente, sua área de ocorrência tem sido bastante reduzida e pouco ou nenhum estudo visando a sua multiplicação tem sido realizado. Objetivando estabelecer protocolo para obtenção de mudas de A. variegata, diferentes composições de meio de cultivo foram testadas para observar aquela que propicia melhores condições para crescimento e desenvolvimento dos protocormos in vitro e ainda a influência desses meios na fase de aclimatização das mudas. Para tal, foram utilizadas cápsulas maduras para obtenção das sementes, as quais foram inoculadas em meio de cultivo básico Knudson por 120 dias até o desenvolvimento de protocormos. Estes foram então transferidos para diferentes formulações dos meios de cultivo MS e Knudson, variando a concentração de sais e de carvão ativado (0; 3,0 e 6,0g L-1). Após 180 dias da inoculação dos protocormos, foram realizadas avaliações referentes ao comprimento da maior raiz e da parte aérea, número de raízes e folhas, e quantificados os teores de clorofila. Em seguida, as mudas foram transferidas para bandejas contendo uma mistura de Plantmax® e Fibra de Coco (1:1) para aclimatização. Melhores resultados para o crescimento in vitro de A. variegata foram obtidos com a utilização do meio de cultura MS, acrescido de 6,0g L-1 de carvão ativado. No entanto, os maiores níveis de clorofila foram obtidos nos tratamentos contendo sais MS desprovidos de carvão ativado, e os menores nos meios contendo sais Knudson providos com carvão ativado. As plantas oriundas dos tratamentos com maiores teores de clorofila total durante a fase in vitro obtiveram as maiores taxas de sobrevivência e melhor desenvolvimento na fase de aclimatização.
ABSTRACT
The D2 statistics is useful tool to assess genetic diversity among genotypes. It also provides qualitative measures of association between geographical and genetic diversity based on generalized distances. In the present study data on forty nine genotypes were subjected to D2 analysis, which revealed the presence of substantial amount of genetic variability among them. The pattern of distribution of genotypes into various clusters was random, suggesting that geographical and genetic diversity were not related. The experimental material was partitioned into eight clusters. Flag leaf area per plant contributed maximum towards genetic diversity followed by days to 50 per cent tasseling.
ABSTRACT
Object To determine the diumal changes of photosynthesis, its relationships with light intensities and temperatures, and the contents of chloroophyll in leaves of Dendrobium candidum Wall. ex. Lindl., D. wilsonii Rolfe and D. hercoglossum Reichb. f. Methods The net photosynthetic rate (NPR) was measured at intervals of 1.5 h during daytimes 7:30—16:30, under the photosynthetic affective rates 0—140 mmol/(m 2?s), and under the temperatures 29.6—38.2 ℃; contents of chlorophyll a and b in leaves were measured. Results NPR, light saturation point and compensation point were low in each of the three Dendrobium L. species. The NPR peaked during 8:00 and 10:00 am, and thereafter decreased rapidly as the temperature and light intensity increased. Content of chlorophyll b was high in the leaves. Conclusion These results indicated that the Dendrobium L. species, which are sciophyte plants, have great adaptations to their growing habitats.