ABSTRACT
Shading is an environmental factor that has been little investigated regarding its effects on emergent aquatic plants. Typha domingensis Pers. is an emergent macrophyte that demonstrates some plasticity for self-shading, and as it can shade other species in the same area, the effect of shading on its traits deserves further investigation. The objective of the present study was to evaluate the gas exchange, leaf anatomy, and growth of T. domingensis cultivated under increasing shading intensities. The plants were collected and propagated in a greenhouse, and the clones were subjected to four shading intensities: 0% (unshaded), 35%, 73%, and 83% shading created by black nets. Growth traits, clonal production, photosynthesis, transpiration, and leaf anatomy were evaluated. The 73% and 83% shading promoted the death of all plants, but all plants survived in the 35% and unshaded treatments. Compared with the unshaded treatment, the 35% shading treatment promoted a higher photosynthetic rate and greater transpiration, supporting increased growth and production of clones. The increase in the photosynthetic rate in the 35% shading was related to the increase in leaf area which increased the photosynthesis of the whole plant. The 73% and 83% treatments inhibited the development of photosynthetic parenchyma and stomata in T. domingensis, leading to a drastic reduction in photosynthesis and energy depletion. Therefore, T. domingensis does not tolerate intense shading, but its photosynthetic characteristics and growth are favored by mild shading, a factor that may be of great importance for its competitiveness and invasive behavior.
Subject(s)
Photosynthesis , Plant Leaves , Typhaceae , Photosynthesis/physiology , Plant Leaves/physiology , Plant Leaves/anatomy & histology , Plant Leaves/radiation effects , Plant Leaves/growth & development , Typhaceae/physiology , Plant Transpiration/physiology , Sunlight , Plant Stomata/physiology , Plant Stomata/radiation effects , Plant Stomata/anatomy & histologyABSTRACT
Many tropical species live close to their thermal limits within a narrow niche. Here, we investigate the ecophysiological limits of the tropical tree Podocarpus trinitensis, which is endemic to Trinidad and Tobago where most populations exist as isolated stands on hilltops. Five wild stands from a range of elevations were compared in the field with measurements of leaf temperature, canopy cover, stomatal conductance (gs), chlorophyll content and several chlorophyll fluorescence parameters. A parallel greenhouse experiment was used to acclimate seedlings to 'CONTROL' and 'HEAT' treatments (with mid-day air temperatures of 34.5 and 37 °C respectively), after which the above parameters were measured along with photosynthetic light and temperature response curves, leaf morphology and in vitro Fv/Fm thermostability. There was a positive association between improved physiological performance and elevation. In the high elevation sites, leaf temperatures were significantly lower while most of the physiological parameters were higher (gs, chlorophyll content, ɸ PSII, ETRmax and Isat90). In the greenhouse, HEAT and CONTROL plants were similar for most parameters, except leaf temperature (which was coupled with air temperature) and leaf mass per unit area (which was higher in HEAT plants). Temperature response curves showed an optimum temperature for photosynthesis of 30 ± 0.5 °C (TOpt) and in vitro Fv/Fm indicated a critical temperature of 47.4 ± 0.38 °C for HEAT and 48.2 ± 0.24 °C for CONTROL (T50), with no indication of heat acclimation. Podocarpus trinitensis was found to be shade tolerant. In the field, seedlings established under a close canopy (>95% canopy cover) and had a low light saturation point (LCP). In the greenhouse, where more light was available, seedlings retained a low light compensation point, light saturation point (LSP) and maximum photosynthetic rate (Amax). The results suggest that P. trinitensis is moderately heat tolerant with the higher elevation sites being more habitable, but stands are also able to survive near sea level under a closed canopy. The narrow niche, along with the 30 ± 0.5 °C optimum temperature for photosynthesis and the lack of thermal plasticity in critical temperature, suggests that P. trinitensis has little room to acclimate to temperatures higher than those currently experienced.
Subject(s)
Tracheophyta , Trees , Trees/physiology , Photosynthesis/physiology , Chlorophyll , Plant Leaves/physiology , Temperature , Seedlings/physiologyABSTRACT
Although the JmjC domain-containing histone demethylases displayed a crucial role in maintaining the homeostasis of histone methylation, while the systematic identification and functional researches of JmjC domain-containing gene family have not been conducted in Mung bean (VrJMJgenes). According to the structural characteristics and phylogenetic relationship with their orthologs from Glycine max, Lotus japonicus, Medicagotruncatula, Arabidopsis thaliana, and Oryza sativa, a total of 18 VrJMJgenes were identified and divided into four clades (KDM3, KDM5. PKDM8, and PKDM9). Interspecies co-collinearity analysis showed the significant JmjC gene duplication events which have occurred during the Papilionoideae evolution. The exon/intron and domain organization of VrJMJgenes from the same clade (or subclade) were similar. All VrJMJ proteins contained a conserved JmjC domain, meanwhile other essential domains also have been found in some specific VrJMJ proteins which responsible for their functions. Numerous abiotic stress and light response related cis-elements associating with transcriptional regulation that were demonstrated in the promoter regions of VrJMJgenes(Pro VrJMJs ). Expression profiles of VrJMJgenes in different tissues showed that most genes displayed a tissue-specific expression in roots or leaves. The acronym RT-qPCR results showed that all VrJMJ genes displayed different degrees of abiotic stress (drought, salinity, and cold) and photoperiodic responses. Furthermore, VrJMJ3 and VrJMJ9 were significantly up-regulated after all three abiotic stress treatments, and VrJMJ13 exhibited a potential function in the photoperiodic regulation of Mung bean flowering. These results provided a clear understanding of VrJMJ genes, and laid a theoretical basis for further verification of their potential biological functions of VrJMJ genes.
Embora as desmetilases de histonas contendo o domínio JmjC exibam um papel crucial na manutenção da homeostase das metilações de histonas, enquanto a identificação sistemática e a pesquisa funcional da família de genes contendo o domínio JmjC não foram conduzidas em feijão mungo (genes VrJMJ). De acordo com suas características de estrutura e relações filogenéticas com os ortólogos de Glycine max, Lotus japonicus, Medicago truncatula, Arabidopsis thaliana e Oryza sativa, se identificaram um total de 18 genes VrJMJ se divididos em quatro clados (KDM3, KDM5, PKDM8 e PKDM9). A análise de colinearidade exibiu eventos significativos de duplicação do gene JmjC ocorridos durante a evolução de Papilionoideae. A organização exon/intron e domínio de genes VrJMJ do mesmo clade (ou subclade) foram semelhantes. Todas as proteínas VrJMJ continham um domínio JmjC conservado, enquanto outros domínios essenciais foram encontrados em algumas proteínas VrJMJ específicas que são responsáveis por suas funções. Numerosos elementos cis relacionados ao estresse abiótico e à resposta à luz associados à regulação da transcrição foram encontrados nas regiões promotoras dos genes VrJMJ (Pro VrJMJs ). A análise do padrão de expressão dos genes VrJMJ em diferentes tecidos mostrou que a maioria dos genes exibe uma expressão preferencial em raízes ou folhas. Além disso, os resultados de acronym RT-qPCR mostraram que todos os genes VrJMJ apresentam diferentes graus de resposta ao estresse abiótico (seca, salinidade e frio) e tratamentos fotoperiódicos. Além disso, VrJMJ3 y VrJMJ9 foi notavelmente expresso na resposta a todos os estresses abióticos mencionados acima, e VrJMJ13 exibiu funções potenciais na regulação fotoperiódica da floração em feijão-mungo. Estes resultados proporcionam una compreensão clara dos genes VrJMJ e estabeleceu uma base teórica para uma maior verificação das possíveis funções biológicas dos genes VrJMJ.
Subject(s)
Stress, Physiological , Gene Expression , Genome , Vigna/geneticsABSTRACT
Considerable progress has been made towards the understanding of triacylglycerol (TAG) accumulation in algae. One key aspect is finding conditions that trigger TAG production without reducing cell division. Previously, we identified a soluble diacylglycerol acyltransferase (DGAT), related to plant DGAT3, with heterologous DGAT activity. In this work, we demonstrate that Chlamydomonas reinhardtii DGAT3 localizes to the chloroplast and that its expression is induced by light, in correspondence with TAG accumulation. Dgat3 mRNAs and TAGs increase in both wild-type and starch-deficient cells grown with acetate upon transferring them from dark or low light to higher light levels, albeit affected by the particularities of each strain. The response of dgat3 mRNAs and TAGs to light depends on the pre-existing levels of TAGs, suggesting the existence of a negative regulatory loop in the synthesis pathway, although an effect of TAG turnover cannot be ruled out. Altogether, these results hint towards a possible role of DGAT3 in light-dependent TAG accumulation in C. reinhardtii.
Subject(s)
Chlamydomonas reinhardtii , Diacylglycerol O-Acyltransferase , Chlamydomonas reinhardtii/genetics , Chlamydomonas reinhardtii/metabolism , Chloroplasts/metabolism , Diacylglycerol O-Acyltransferase/genetics , Diacylglycerol O-Acyltransferase/metabolism , Triglycerides/metabolismABSTRACT
With the worldwide development of anthelmintic resistance, new alternative approaches for controlling gastrointestinal nematodes in sheep are urgently required. In this work, we identified and characterized native nematode-trapping fungi. We collected seven isolates of fungi with the capacity to form adhesive, three-dimensional networks as the main mechanism to capture, kill, and consume nematodes. The nematode-trapping fungi were classified into two groups; the first group includes the R2-13 strain, showing faster growth, abundant aerial hyphae, scarce conidia production, bigger conidia, and it formed a clade with Arthrobotrys oligospora sensu stricto. The second comprises the A6, A12, A13, R2-1, R2-6, and R2-14 strains, showing a growth adhering to the culture medium, forming little aerial hyphae, smaller conidia, and these formed a sister clade to A. oligospora. Except for the R2-6 strain, conidia production was induced by light. In all the strains, the predatory capacity against the sheep gastrointestinal nematode Haemonchus contortus was greater than 58% compared with the control group. The A6 and A13 strains were the most active against the infective H. contortus third instar (L3) larvae, with an average capture capacity of 91%. Altogether, our results support evidence for a novel A. oligospora variety with high nematode-trapping activity and promissory in helminthic control.
ABSTRACT
The development of an efficient transformation system is essential to enrich the genetic understanding of Trichoderma atroviride. To acquire an additional homologous selectable marker, uracil auxotrophic mutants were generated. First, the pyr4 gene encoding OMP decarboxylase was replaced by the hph marker gene, encoding a hygromycin phosphotransferase. Then, uracil auxotrophs were employed to determine that 5 mM uracil restores their growth and conidia production, and 1 mg ml-1 is the lethal dose of 5-fluoroorotic acid in T. atroviride. Subsequently, uracil auxotrophic strains, free of a drug-selectable marker, were selected by 5-fluoroorotic acid resistance. Two different deletions in pyr4 were mapped in four auxotrophs, encoding a protein with frameshifts at the 310 and 335 amino acids in their COOH-terminal. Six auxotrophs did not have changes in the pyr4 ORF even though a specific cassette to delete the pyr4 was used, suggesting that 5-FOA could have mutagenic activity. The Ura-1 strain was selected as a genetic background to knock out the MAPKK Pbs2, MAPK Tmk3, and the blue light receptors Blr1/Blr2, using a short version of pyr4 as a homologous marker. The ∆tmk3 and ∆pbs2 mutants selected with pyr4 or hph marker were phenotypically identical, highly sensitive to different stressors, and affected in photoconidiation. The ∆blr1 and ∆blr2 mutants were not responsive to light, and complementation of uracil biosynthesis did not interfere in the expression of blu1, grg2, phr1, and env1 genes upregulated by blue light. Overall, uracil metabolism can be used as a tool for genetic manipulation in T. atroviride.
Subject(s)
Fungal Proteins/genetics , Hypocreales , Orotidine-5'-Phosphate Decarboxylase , Transformation, Genetic , Biomarkers/metabolism , Genes, Fungal , Hypocreales/genetics , Hypocreales/growth & development , Hypocreales/metabolism , Orotidine-5'-Phosphate Decarboxylase/genetics , Orotidine-5'-Phosphate Decarboxylase/metabolism , Spores, Fungal/metabolismABSTRACT
BACKGROUND: bZIP proteins participate in the regulation of gene expression, playing crucial roles in various biological processes in plants, including response to environmental changes. Luminosity is an environmental factor of extreme importance for plant metabolism, acting as a regulator of its growth and development. Despite advances in the identification of bZIP proteins in several plant species, studies on these transcription factors in cassava are lacking. Cassava (Manihot esculenta Crantz) is one of the most important food crops in tropical and subtropical regions, mainly in developing countries, where its storage root is a major source of calories for low-income people. OBJECTIVES: Our main aim was the isolation of a cDNA sequence encoding a bZIP protein from cassava (MebZIP) as well as the in silico characterization of its nucleotide and deduced amino acid sequences. In addition, we evaluated the expression pattern of the MebZIP gene in response to light, and its possible relationship with regulation of the chalcone synthase (MeCHS) gene. METHODS: RT-PCR and 3' and 5' RACE assays were used to isolate the full-length cDNA sequence of MebZIP. Bioinformatics tools were used to characterize the nucleotide and amino acid sequences of MebZIP. Semiquantitative RT-PCR assays were used to evaluate the expression levels of MebZIP and MeCHS genes. RESULTS: We isolated the full-length cDNA sequence of MebZIP with a 1320-bp ORF encoding a deduced protein with a predicted molecular weight and isoelectric point of 47 kDa and 5.85, respectively. Comparative analyses with GenBank sequences showed high identity of MebZIP with bZIP CPRF-2 of Hevea brasiliensis (XP_021650934) and Petroselinum crispum (Q99090.2). Besides the basic region and leucine zipper domains, MebZIP contains putative conserved domains (D1- D4), found in parsley CPRF-2 and bZIP proteins closely related to this protein. Since CPRF proteins are known for their function in regulation of the CHS gene by light, we evaluated the expression levels of the MebZIP gene and the possible target gene to be regulated by MebZIP (the MeCHS gene) in cassava under light conditions. Semi-quantitative RT-PCR assays revealed that MebZIP transcription increased in response to white light, with maximum expression levels at 6 h of light exposure. On the other hand, the expression levels of the MeCHS gene were statistically constant in all samples, indicating that they were not influenced by the experimental conditions used here. CONCLUSION: The putative MebZIP protein identified in this work contains the conserved domains (bZIP, D1-D4) that indicate its functionality, thus allowing it to be considered a new member of the bZIP transcription factor CPRF-2 family. The expression levels of the MebZIP gene increased during white light exposure, indicating a potential function in light-response in cassava.
Subject(s)
Light , Manihot , Plant Proteins , Transcription Factors , Transcription, Genetic , Manihot/genetics , Manihot/metabolism , Plant Proteins/genetics , Plant Proteins/metabolism , Transcription Factors/genetics , Transcription Factors/metabolismABSTRACT
Vascular wilt caused by Fusarium oxysporum is the most limiting disease that affects cape gooseberry (Physalis peruviana L.) crops in Colombia. The use of synthetic elicitors for vascular wilt management is still scarce in Andean fruit species. The objective of the present study was to evaluate the effect and number of foliar applications of synthetic elicitors such as jasmonic acid (JA), salicylic acid (SA), brassinosteroids (BR), or a commercial resistance elicitor based on botanical extracts (BE) on disease progress and their effect on the physiology of cape gooseberry plants inoculated with F. oxysporum f. sp. physali. Groups of ten plants were separately sprayed once, twice, or three times with a foliar synthetic elicitor, respectively. Elicitor applications were performed at the following concentrations: JA (10 mL L-1), SA (100 mg L-1), BR (1 mL L-1) and BE (2.5 mL of commercial product (Loker®) L-1). The results showed that three foliar BR, SA, or BE applications reduced the area under the disease progress, severity index, and vascular browning in comparison to inoculated plants without any elicitor spray. Three BR, SA, or BE sprays also favored stomatal conductance, water potential, growth (total dry weight and leaf area) and fluorescence parameters of chlorophyll compared with inoculated and untreated plants with no elicitor sprays. Three foliar sprays of SA, BR, or BE enhanced photosynthetic pigments (leaf total chlorophyll and carotenoid content) and proline synthesis and decreased oxidative stress in Foph-inoculated plants. In addition, the effectiveness of three foliar BR, SA, or BE sprays was corroborated by three-dimensional plot and biplot analysis, in which it can evidence that stomatal conductance, proline synthesis, and efficacy percentage were accurate parameters to predict Foph management. On the hand, JA showed the lowest level of amelioration of the negative effects of Foph inoculation. In conclusion, the use of the synthetic elicitors BR, SA, or BE can be considered as a tool complementary for the commercial management of vascular wilt in areas where this disease is a limiting factor.
ABSTRACT
Grafting is an effective measure to improve the photosynthetic rate of citrus. The light responses of photosynthesis in leaves of two-year old grafted Huangguogan (citrus cultivar Huangguogan), Huanggougan / Trifoliate (HG/PT), Huanggougan / Tangerine (HG/CR), and Huanggougan / Ziyang Xiangcheng (HG/CJ) were studied using the LI-COR 6400 portable photosynthesis system. Light-response curves and photosynthetic parameters were analyzed and fitted using the rectangular hyperbola model (RHM), the exponential model (EM), the non rectangular hyperbola model (NRHM), and the modified rectangular hyperbola model (MRHM). The results showed that: (1) Grafting can change the photosynthetic characteristics of Huangguogan, and the value of photosynthesis rate of HG/CJ is the greatest; (2) The light-response curves of net photosynthetic rate (PN), the light compensation point (LCP), and the dark respiration rate (RD) were well fitted using the above four models. The modified rectangular hyperbola was the best model in fitting the data; the nonrectangular hyperbola model was the second, and the rectangular hyperbola model was the poorest one.(AU)
O enxerto é uma medida eficaz para melhorar a taxa fotossintética de citros. As respostas leves da fotossíntese em folhas de Huangguogan (cultivar de citros Huangguogan), Huanggougan / Trifoliate (HG / PT), Huanggougan / Tangerine (HG / CR) e Huanggougan / Ziyang Xiangcheng (HG / CJ) foram estudadas usando o sistema de fotossíntese portátil LI-COR 6400.Curvas de resposta à luz e parâmetros fotossintéticos foram analisados e ajustados usando o modelo de hipérbole retangular (RHM), o modelo exponencial (EM), o modelo de hipérbole não retangular (NRHM) e o modelo de hipérbole retangular modificado (MRHM). Os resultados mostraram que: (1) O enxerto pode mudar as características fotossintéticas de Huangguogan, e o valor da taxa de fotossíntese de HG / CJ é o maior; (2) As curvas de resposta à luz da taxa fotossintética líquida (PN), do ponto de compensação de luz (LCP) e da taxa de respiração escura (RD) foram bem ajustadas usando os quatro modelos acima. A hipérbole retangular modificada foi o melhor modelo na adaptação dos dados; o modelo de hipérbole não-retangular foi o segundo, e o modelo de hipérbole retangular foi o mais pobre.(AU)
Subject(s)
Photosynthesis , Citrus/radiation effects , Citrus/growth & development , 24444ABSTRACT
Grafting is an effective measure to improve the photosynthetic rate of citrus. The light responses of photosynthesis in leaves of two-year old grafted Huangguogan (citrus cultivar Huangguogan), Huanggougan / Trifoliate (HG/PT), Huanggougan / Tangerine (HG/CR), and Huanggougan / Ziyang Xiangcheng (HG/CJ) were studied using the LI-COR 6400 portable photosynthesis system. Light-response curves and photosynthetic parameters were analyzed and fitted using the rectangular hyperbola model (RHM), the exponential model (EM), the non rectangular hyperbola model (NRHM), and the modified rectangular hyperbola model (MRHM). The results showed that: (1) Grafting can change the photosynthetic characteristics of Huangguogan, and the value of photosynthesis rate of HG/CJ is the greatest; (2) The light-response curves of net photosynthetic rate (PN), the light compensation point (LCP), and the dark respiration rate (RD) were well fitted using the above four models. The modified rectangular hyperbola was the best model in fitting the data; the nonrectangular hyperbola model was the second, and the rectangular hyperbola model was the poorest one.
O enxerto é uma medida eficaz para melhorar a taxa fotossintética de citros. As respostas leves da fotossíntese em folhas de Huangguogan (cultivar de citros Huangguogan), Huanggougan / Trifoliate (HG / PT), Huanggougan / Tangerine (HG / CR) e Huanggougan / Ziyang Xiangcheng (HG / CJ) foram estudadas usando o sistema de fotossíntese portátil LI-COR 6400.Curvas de resposta à luz e parâmetros fotossintéticos foram analisados e ajustados usando o modelo de hipérbole retangular (RHM), o modelo exponencial (EM), o modelo de hipérbole não retangular (NRHM) e o modelo de hipérbole retangular modificado (MRHM). Os resultados mostraram que: (1) O enxerto pode mudar as características fotossintéticas de Huangguogan, e o valor da taxa de fotossíntese de HG / CJ é o maior; (2) As curvas de resposta à luz da taxa fotossintética líquida (PN), do ponto de compensação de luz (LCP) e da taxa de respiração escura (RD) foram bem ajustadas usando os quatro modelos acima. A hipérbole retangular modificada foi o melhor modelo na adaptação dos dados; o modelo de hipérbole não-retangular foi o segundo, e o modelo de hipérbole retangular foi o mais pobre.
Subject(s)
Citrus/growth & development , Citrus/radiation effects , 24444 , PhotosynthesisABSTRACT
Petunia is endemic to South America grasslands; member of this genus exhibit variation in flower colour and shape, attracting bees, hawkmoths or hummingbirds. This group of plants is thus an excellent model system for evolutionary studies of diversification associated with pollinator shifts. Our aims were to identify the legitimate pollinator of Petunia secreta, a rare and endemic species, and to assess the importance of floral traits in pollinator attraction in this Petunia species. To determine the legitimate pollinator, field observations were conducted, and all floral visitors were recorded and evaluated. We also measured the nectar volume and sugar concentration. To characterize morphological cues for pollinators, we assessed the ultraviolet (UV)-light response in detached flowers, and characterized the floral pigments and pollen volatile scents for four different Petunia species that present different pollination syndromes. Petunia secreta shares the most recent ancestor with a white hawkmoth-pollinated species, P. axillaris, but presents flavonols and anthocyanin pigments responsible for the pink corolla colour and UV-light responses that are common to bee-pollinated Petunia species. Our study showed that a solitary bee in the genus Pseudagapostemon was the most frequent pollinator of P. secreta, and these bees collect only pollen as a reward. Despite being mainly bee-pollinated, different functional groups of pollinators visit P. secreta. Nectar volume, sugar concentration per flower, morphology and components of pollen scent would appear to be attractive to several different pollinator groups. Notably, the corolla includes a narrow tube with nectar at its base that cannot be reached by Pseudagapostemon, and flowers of P. secreta appear to follow an evolutionary transition, with traits attractive to several functional groups of pollinators. Additionally, the present study shows that differences in the volatiles of pollen scent are relevant for plant mutualistic and antagonist interactions in Petunia species and that pollen scent profile plays a key role in characterizing pollination syndromes.
ABSTRACT
Light is the most influential environmental stimulus for plant growth. In response to deficient light, plants reprogram their development to adjust their growth in search for a light source. A fine reprogramming of gene expression orchestrates this adaptive trait. Here we show that plants alter microRNA (miRNA) biogenesis in response to light transition. When plants suffer an unusual extended period of light deprivation, the miRNA biogenesis factor HYPONASTIC LEAVES 1 (HYL1) is degraded but an inactive pool of phosphorylated protein remains stable inside the nucleus. Degradation of HYL1 leads to the release of gene silencing, triggering a proper response to dark and shade. Upon light restoration, a quick dephosphorylation of HYL1 leads to the reactivation of miRNA biogenesis and a switch toward a developmental program that maximizes the light uptake. Our findings define a unique and fast regulatory mechanism controlling the plant silencing machinery during plant light response.
Subject(s)
Arabidopsis Proteins/metabolism , Gene Expression Regulation, Plant/genetics , MicroRNAs/metabolism , RNA-Binding Proteins/metabolism , Arabidopsis/metabolism , Cell Nucleus/metabolism , Gene Silencing , Light , MicroRNAs/genetics , Mutation , Phosphorylation , Plant Leaves/metabolism , RNA Processing, Post-Transcriptional/physiologyABSTRACT
ABSTRACT To investigate the effect of arbuscular mycorrhiza fungi on maize growth, osmoregulation substances and photosynthetic physiology, a popular maize variety ZD 958 was measured under potted condition. Arbuscular mycorrhiza (AM) symbiosis promoted plant growth, and enhanced plant height, leaf length, mean leaf width and dry weight. Higher soluble sugar and protein, but lower proline concentrations were detected in AM seedlings than corresponding non-AM seedlings. Quantum yield of PSII photochemistry and potential photochemical efficiency increased by arbuscular mycorrhiza fungi, meanwhile, AM plants had lower primary fluorescence but higher maximal fluorescence and variable fluorescence than non-AM plants. AM enhanced apparent quantum efficiency, maximum net photosynthetic rate, dark respiration rate and light saturation point, but reduced light compensation point. The conclusion was that, after the seedling inoculated with Glomus. tortuosum, AM symbioses could protect cell from being hurt through regulating substances related to osmotic adjustment, besides, the efficiency of light utilization, the capacity of using low light and the capacity of fitting and using high light were all increased by AM symbiosis.
ABSTRACT
The ecological restoration strategies for highly threatened ecosystems such as the tropical dry forest, depend on the knowledge of limiting factors of biological processes for the different species. Some of these include aspects such as germination and seed longevity of typical species present in those forests. In this study, we evaluated the effect of light and temperature on seed germination of two Fabaceae (Samanea saman and Jacaranda caucana) and two Bignoniaceae (Pithecellobium dulce and Tabebuia rosea) species having potential use in restoration, and we analyzed the seed storage behavior of these species for a three months period. To study the light effect, four levels of light quality on seeds were used (photoperiod of 12 hours of white light, darkness and light enriched in red and far-red, both for an hour each day), and we combined them with three levels of alternated temperatures (20/25, 20/30 and 25/30°C-16/8h). For the storage behavior, two levels of seed moisture content particular for each species were used (low: 3.5-6.1% and high: 8.3-13.8%), with three storage temperatures (20, 5 and -20°C) and two storage times (one and three months). The criterion for germination was radicle emergence which was measured in four replicates per treatment, and was expressed as percentage of germination (PG). There were significant differences in germination of Samanea saman and Jacaranda caucana among light and temperature treatments, with the lowest value in darkness treatments, whereas germination of Pithecellobium dulce and Tabebuia rosea did not differ between treatments (PG>90%). The most suitable temperature regime to promote germination in all species was 25/30°C. These four species showed an orthodox seed storage behavior. We concluded that seeds of P. dulce, J. caucana and T. rosea did not have an apparent influence of all light conditions tested in their germination response, which might confer advantages in colonization and establishment processes, while S. saman did not germinate well in darkness. We suggest the use of seeds of P. dulce, J. caucana and T. rosea in ecological restoration processes, due to their tolerance and germination under a wide range of temperature and light conditions. Futhermore, seeds of S. saman might be used in open areas such as forest gaps.
Las estrategias de restauración ecológica en ecosistemas altamente amenazados como el bosque seco tropical, dependen del conocimiento de factores limitantes de procesos biológicos, como la germinación y la longevidad de semillas de especies típicas de los mismos. En este estudio se evaluó el efecto de la luz y la temperatura en la germinación de semillas de dos especies de Fabaceae y dos de Bignoniaceae potencialmente útiles para restauración, y se determinó su comportamiento en el almacenamiento. Para el primer objetivo, se utilizaron cuatro niveles de calidad lumínica (fotoperiodo con 12 horas de luz, oscuridad y estímulos de luz enriquecida en rojo y luz enriquecida en rojo lejano, ambas por una hora), combinados con tres niveles de temperaturas alternadas (20/25, 20/30 y 25/30°C - 16/8h). Para el segundo objetivo, se utilizaron dos niveles de contenido de humedad de las semillas, con tres niveles de temperatura de almacenamiento (20, 5 y -20°C) y dos tiempos de almacenamiento (1 y 3 meses). La variable de respuesta para ambos experimentos fue el número de semillas germinadas, expresado en porcentaje (PG). Samanea saman y Jacaranda caucana presentaron un PG significativamente diferente entre los tratamientos lumínicos, con el valor menor en la oscuridad, mientras Pithecellobium dulce y Tabebuia rosea no presentaron diferencias significativas entre tratamientos (PG>90%). La respuesta a la temperatura mostró que 25/30°C es el régimen más adecuado para promover la germinación de la mayoría de las especies. Las semillas de las cuatro especies evaluadas presentaron un comportamiento ortodoxo en el almacenamiento. Se concluye que las semillas de P. dulce, J. caucana y T. rosea son indiferentes a las condiciones de luz y temperatura probadas, confiriéndoles ciertas ventajas en procesos de colonización y establecimiento frente a S. saman, cuya germinación no se ve favorecida en la oscuridad. Se sugiere el uso de semillas de P. dulce, J. caucana y T. rosea en proyectos de restauración ecológica del bosque seco Tropical, debido a su tolerancia y germinación en condiciones ambientales con intervalos amplios de temperatura y luminosidad. Mientras que, semillas de S. saman podrían ser usadas en sitios abiertos como claros de bosques.
Subject(s)
Bignoniaceae/growth & development , Fabaceae/growth & development , Germination , Light , Seeds/growth & development , Temperature , Bignoniaceae/classification , Colombia , Forests , Fabaceae/classificationABSTRACT
The stomatal behavior of ferns provides an excellent system for disentangling responses to different environmental signals, which balance carbon gain against water loss. Here, we measured responses of stomatal conductance (gs ) to irradiance, CO2 , and vapor pressure deficit (VPD) for 13 phylogenetically diverse species native to open and shaded habitats, grown under high- and low-irradiance treatments. We tested two main hypotheses: that plants adapted and grown in high-irradiance environments would have greater responsiveness to all stimuli given higher flux rates; and that species' responsiveness to different factors would be correlated because of the relative simplicity of fern stomatal control. We found that species with higher light-saturated gs had larger responses, and that plants grown under high irradiance were more responsive to all stimuli. Open habitat species showed greater responsiveness to irradiance and CO2 , but lower responsiveness to VPD; a case of plasticity and adaptation tending in different directions. Responses of gs to irradiance and VPD were positively correlated across species, but CO2 responses were independent and highly variable. The novel finding of correlations among stomatal responses to different stimuli suggests coordination of hydraulic and photosynthetic signaling networks modulating fern stomatal responses, which show distinct optimization at growth and evolutionary time-scales.
Subject(s)
Ferns/physiology , Plant Stomata/physiology , Adaptation, Physiological , Carbon Dioxide , Costa Rica , Ecosystem , Ferns/growth & development , Light , Vapor Pressure , WaterABSTRACT
Isoprene emission from plants accounts for about one third of annual global volatile organic compound emissions. The largest source of isoprene for the global atmosphere is the Amazon Basin. This study aimed to identify and quantify the isoprene emission and photosynthesis at different levels of light intensity and leaf temperature, in three phenological phases (young mature leaf, old mature leaf and senescent leaf) of Eschweilera coriacea (Matamatل verdadeira), the species with the widest distribution in the central Amazon. In situ photosynthesis and isoprene emission measurements showed that young mature leaf had the highest rates at all light intensities and leaf temperatures. Additionally, it was observed that isoprene emission capacity (Es) changed considerably over different leaf ages. This suggests that aging leads to a reduction of both leaf photosynthetic activity and isoprene production and emission. The algorithm of Guenther et al. (1999) provided good fits to the data when incident light was varied, however differences among E S of all leaf ages influenced on quantic yield predicted by model. When leaf temperature was varied, algorithm prediction was not satisfactory for temperature higher than ~40 °C; this could be because our data did not show isoprene temperature optimum up to 45 °C. Our results are consistent with the hypothesis of the isoprene functional role in protecting plants from high temperatures and highlight the need to include leaf phenology effects in isoprene emission models.(AU)
O isopreno emitido pelas plantas corresponde em cerca de um terço das emissões globais de compostos orgânicos voláteis anualmente. A maior fonte de emissão de isopreno para a atmosfera global é a Bacia Amazônica. Este estudo objetivou identificar e quantificar a emissão de isopreno e fotossíntese em diferentes níveis de intensidade de luz e temperatura foliar, em três fases fenológicas (folha madura recente, folha madura tardia e folha senescente) de Eschweilera coriacea (Matamatá verdadeira) - a espécie com maior distribuição na Amazônia central. In situ, as medidas de fotossíntese e emissão de isopreno da folha madura recente apresentaram as maiores taxas em todos os níveis de luz e de temperatura. Adicionalmente, a capacidade de emissão de isopreno (ES) mudou consideravelmente entre as diferentes idades foliares, sugerindo que o envelhecimento reduz a atividade fotossintética e a produção/emissão de isopreno. O algoritmo de Guenther et al. (1999) demonstrou bom ajuste para a emissão de isopreno em diferentes intensidades de luz, entretanto, diferenças na ES entre as idades foliares influenciaram no rendimento quântico estimado pelo modelo. Em relação à temperatura foliar, a estimativa do algoritmo não foi satisfatória para as temperaturas acima de ~40 °C; isto provavelmente ocorreu pelo fato dos dados não apresentarem temperatura ótima até 45 °C. Nossos resultados são consistentes com a hipótese do isopreno ter um papel funcional para proteger as plantas de altas temperaturas e apontam a necessidade de incluir os efeitos da fenologia foliar em modelos de emissão de isopreno.(AU)
Subject(s)
Terpenes/radiation effects , Lecythidaceae/radiation effects , Botany/methodsABSTRACT
Isoprene emission from plants accounts for about one third of annual global volatile organic compound emissions. The largest source of isoprene for the global atmosphere is the Amazon Basin. This study aimed to identify and quantify the isoprene emission and photosynthesis at different levels of light intensity and leaf temperature, in three phenological phases (young mature leaf, old mature leaf and senescent leaf) of Eschweilera coriacea (Matamatل verdadeira), the species with the widest distribution in the central Amazon. In situ photosynthesis and isoprene emission measurements showed that young mature leaf had the highest rates at all light intensities and leaf temperatures. Additionally, it was observed that isoprene emission capacity (Es) changed considerably over different leaf ages. This suggests that aging leads to a reduction of both leaf photosynthetic activity and isoprene production and emission. The algorithm of Guenther et al. (1999) provided good fits to the data when incident light was varied, however differences among E S of all leaf ages influenced on quantic yield predicted by model. When leaf temperature was varied, algorithm prediction was not satisfactory for temperature higher than ~40 °C; this could be because our data did not show isoprene temperature optimum up to 45 °C. Our results are consistent with the hypothesis of the isoprene functional role in protecting plants from high temperatures and highlight the need to include leaf phenology effects in isoprene emission models.
O isopreno emitido pelas plantas corresponde em cerca de um terço das emissões globais de compostos orgânicos voláteis anualmente. A maior fonte de emissão de isopreno para a atmosfera global é a Bacia Amazônica. Este estudo objetivou identificar e quantificar a emissão de isopreno e fotossíntese em diferentes níveis de intensidade de luz e temperatura foliar, em três fases fenológicas (folha madura recente, folha madura tardia e folha senescente) de Eschweilera coriacea (Matamatá verdadeira) - a espécie com maior distribuição na Amazônia central. In situ, as medidas de fotossíntese e emissão de isopreno da folha madura recente apresentaram as maiores taxas em todos os níveis de luz e de temperatura. Adicionalmente, a capacidade de emissão de isopreno (ES) mudou consideravelmente entre as diferentes idades foliares, sugerindo que o envelhecimento reduz a atividade fotossintética e a produção/emissão de isopreno. O algoritmo de Guenther et al. (1999) demonstrou bom ajuste para a emissão de isopreno em diferentes intensidades de luz, entretanto, diferenças na ES entre as idades foliares influenciaram no rendimento quântico estimado pelo modelo. Em relação à temperatura foliar, a estimativa do algoritmo não foi satisfatória para as temperaturas acima de ~40 °C; isto provavelmente ocorreu pelo fato dos dados não apresentarem temperatura ótima até 45 °C. Nossos resultados são consistentes com a hipótese do isopreno ter um papel funcional para proteger as plantas de altas temperaturas e apontam a necessidade de incluir os efeitos da fenologia foliar em modelos de emissão de isopreno.
Subject(s)
Lecythidaceae/radiation effects , Terpenes/radiation effects , Botany/methodsABSTRACT
STUDY OBJECTIVES: Photic and non-photic stimuli have been shown to shift the phase of the human circadian clock. We examined how photic and non-photic time cues may be combined by the human circadian system by assessing the phase advancing effects of one evening dose of exogenous melatonin, alone and in combination with one session of morning bright light exposure. DESIGN: Randomized placebo-controlled double-blind circadian protocol. The effects of four conditions, dim light (â¼1.9 lux, â¼0.6 Watts/m(2))-placebo, dim light-melatonin (5 mg), bright light (â¼3000 lux, â¼7 Watts/m(2))-placebo, and bright light-melatonin on circadian phase was assessed by the change in the salivary dim light melatonin onset (DLMO) prior to and following treatment under constant routine conditions. Melatonin or placebo was administered 5.75 h prior to habitual bedtime and 3 h of bright light exposure started 1 h prior to habitual wake time. SETTING: Sleep and chronobiology laboratory environment free of time cues. PARTICIPANTS: Thirty-six healthy participants (18 females) aged 22 ± 4 y (mean ± SD). RESULTS: Morning bright light combined with early evening exogenous melatonin induced a greater phase advance of the DLMO than either treatment alone. Bright light alone and melatonin alone induced similar phase advances. CONCLUSION: Information from light and melatonin appear to be combined by the human circadian clock. The ability to combine circadian time cues has important implications for understanding fundamental physiological principles of the human circadian timing system. Knowledge of such principles is important for designing effective countermeasures for phase-shifting the human circadian clock to adapt to jet lag, shift work, and for designing effective treatments for circadian sleep-wakefulness disorders.
Subject(s)
Circadian Clocks/physiology , Melatonin/pharmacology , Photic Stimulation , Circadian Clocks/drug effects , Circadian Clocks/radiation effects , Cues , Double-Blind Method , Female , Humans , Light , Male , Melatonin/administration & dosage , Melatonin/analysis , Saliva/chemistry , Young AdultABSTRACT
The BLR-1 and BLR-2 proteins of Trichoderma atroviride are the Neurospora crassa homologs of white collar-1 and -2, two transcription factors involved in the regulation of genes by blue light. BLR-1 and BLR-2 are essential for photoinduction of phr-1, a photolyase-encoding gene whose promoter exhibits sequences similar to well-characterized light regulatory elements of Neurospora, including the albino proximal element and the light response element (LRE). However, despite the fact that this gene has been extensively used as a blue light induction marker in Trichoderma, the function of these putative regulatory elements has not been proved. The described LRE core in N. crassa comprises two close but variably spaced GATA boxes to which a WC-1/-2 complex binds transiently upon application of a light stimulus. Using 5' serial deletions of the phr-1 promoter, as well as point mutations of putative LREs, we were able to delimit an ~ 50 bp long region mediating the transcriptional response to blue light. The identified light-responsive region contained five CGATB motifs, three of them displaying opposite polarity to canonical WCC binding sites. Chromatin immunoprecipitation experiments showed that the BLR-2 protein binds along the phr-1 promoter in darkness, whereas the application of a blue light pulse results in decreased BLR-2 binding to the promoter. Our results suggest that BLR-2 and probably BLR-1 are located on the phr-1 promoter in darkness ready to perform their function as transcriptional complex in response to light.
Subject(s)
Deoxyribodipyrimidine Photo-Lyase/genetics , Fungal Proteins/genetics , Gene Expression Regulation, Fungal/radiation effects , Response Elements/radiation effects , Trichoderma/enzymology , Base Sequence , Conserved Sequence , Deoxyribodipyrimidine Photo-Lyase/metabolism , Fungal Proteins/metabolism , Molecular Sequence Data , Promoter Regions, Genetic , Trichoderma/radiation effects , Ultraviolet RaysABSTRACT
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'.