The reproductive cycle of the oyster Crassostrea gasar

The purpose of this study was to analyze the reproductive cycle of the oyster Crassostrea gasar (= C. brasiliana) in the field and the laboratory. The reproductive cycle of the animals was evaluated in the field at Sambaqui Beach, Florianópolis, SC (27° 29′18″ S and 48° 32′12″ W) from May 2008 through November 2009. In July, the animals were in the resting stage. The early growth stage began in August and was followed by the late growth stage in October. In November and December, the oysters began to enter the mature stage. Females in spawning condition were predominant during these months. The stages of the reproductive cycle were positively associated with temperature (r=0.77, P<0.01) and negatively associated with salinity (r=−0.56, P=0.042). These findings demonstrated that increased temperature and reduced salinity influence the reproductive development of Crassostrea gasar. The condition index (CI) of the animals was also associated with the seawater temperature. The highest values of the condition index were observed during the months when the temperature of the seawater was gradually increasing. A laboratory experiment was performed to test the effect of salinity on the reproductive cycle of the oysters. The experiment was conducted in standardized tanks. The animals were conditioned using two salinities (24‰ and 34‰). The salinity regime influenced the development of the gonadal tissue of the oysters. A salinity of 24‰ produced greater reproductive development.

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Growth, Development, and Chemical Constituents of Edible Ice Plant (Mesembryanthemum crystallinum L.) Produced under Combinations of Light-emitting Diode Lights

HortScience ◽

10.21273/hortsci12997-18 ◽

2018 ◽

Vol 53 (6) ◽

pp. 865-874 ◽

Cited By ~ 2

Author(s):

Thitipat Weeplian ◽

Tsair-Bor Yen ◽

Yunn-Shy Ho

Keyword(s):

Vegetative Growth ◽

Growth Stage ◽

Chemical Constituents ◽

Early Growth ◽

Mesembryanthemum Crystallinum ◽

Light Spectrum ◽

Light Emitting ◽

Early Growth Stage ◽

Light Spectra ◽

Late Growth

To investigate the effects of light treatments on the growth morphology and chemical constituents of Mesembryanthemum crystallinum L. plants, red (R), blue (B), far red (Fr), and white (W) light-emitting diodes (LEDs) were configured to provide different combinations of light spectra and photosynthetic photon flux densities (PPFDs). In Expt. 1, five light spectra of red/white (RW), red/white/far red (RWFr), red/white/high-intensity far red (RWFrD), red/blue (RB), and red/blue/far red (RBFr) were set up in two 3-layered racks with circulating hydroponic systems. In each light spectrum treatment, the distance between the LED lamps and the transplanting board was regulated to provide low PPFD and high PPFD treatments. In Expt. 2, the effect of Fr was further investigated in plants in the early and late growth stages. RWFr light was modified by covering the Fr lamps to become red/white without far red (RW−Fr) light during the early growth stage, and then removing the covers to provide the Fr spectrum red/white with far red (RW+Fr) during the later growth stage. This study suggested that high PPFD was not beneficial for promoting plant growth in any light spectrum treatment. Among light spectrum treatments at a PPFD of 215 ± 15 μmol·m−2·s−1, RW light produced higher vegetative growth. In the late growth stage, RW and RB combined with Fr light promoted reproductive growth, antioxidant activities, and secondary compounds, such as phenolic compounds, pinitol accumulation, and betacyanins. Therefore, RW (227 μmol·m−2·s−1), RW−Fr (162 μmol·m−2·s−1), and RB (162 μmol·m−2·s−1) are suggested for the early growth stage to promote vegetative growth. Then additional Fr light can be applied in addition to RW for secondary metabolite induction in the late growth stage.

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Control of Early Watergrass (Echinochloa Oryzoides) and Late Watergrass (Echinochloa Phyllopogon) with Cyhalofop, Clefoxydim, and Penoxsulam Applied Alone and in Mixture with Broadleaf Herbicides

Weed Technology ◽

10.1614/wt-05-140.1 ◽

2006 ◽

Vol 20 (4) ◽

pp. 992-998 ◽

Cited By ~ 9

Author(s):

Christos A. Damalas ◽

Kico V. Dhima ◽

Ilias G. Eleftherohorinos

Keyword(s):

Growth Stage ◽

Leaf Growth ◽

Application Rate ◽

Early Growth ◽

Rice Fields ◽

Growth Stages ◽

Early Growth Stage ◽

Late Growth ◽

Echinochloa Phyllopogon

Experiments were conducted to study the effect of application rate, growth stage, and tank-mixing azimsulfuron or bentazon on the activity of cyhalofop, clefoxydim, and penoxsulam against two morphologically distinctEchinochloaspecies from rice fields in Greece. Mixtures of penoxsulam with MCPA were also evaluated. Cyhalofop (300 to 600 g ai/ha) applied at the three- to four-leaf growth stage provided 62 to 85% control of early watergrass but 41 to 83% control of late watergrass averaged over mixture treatments. Control ranged from 37 to 80% for early watergrass and from 35 to 78% for late watergrass when cyhalofop was applied at the five- to six-leaf growth stage averaged over mixture treatments. Mixtures of cyhalofop with azimsulfuron or bentazon reduced efficacy on both species irrespective of growth stage or cyhalofop application rate compared with cyhalofop alone. Clefoxydim (100 to 250 g ai/ha) applied alone at the three- to four-leaf growth stage provided 98 to 100% control of early watergrass and 91 to 100% control of late watergrass; when clefoxydim was applied alone at the five- to six-leaf growth stage the control obtained was 91 to 100% for early watergrass and 79 to 100% for late watergrass. Mixtures of clefoxydim with azimsulfuron or bentazon reduced efficacy on late watergrass at the early growth stage and on both species at the late growth stage. Penoxsulam (20 to 40 g ai/ha) applied alone provided 94 to 100% control of both species at both growth stages. Mixtures of MCPA with penoxsulam reduced efficacy on late watergrass at the early growth stage and on both species at the late growth stage. Mixtures of penoxsulam with azimsulfuron or bentazon reduced efficacy only on late watergrass at the late growth stage.

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An age-Induced Variation in Susceptibility to Virus X in Nicotiana Tabacum L.

Australian Journal of Biological Sciences ◽

10.1071/bi9510450 ◽

1951 ◽

Vol 4 (4) ◽

pp. 450

Author(s):

EM Hutton

Keyword(s):

Nicotiana Tabacum ◽

Phenotypic Variation ◽

Growth Stage ◽

Early Growth ◽

Early Growth Stage ◽

Nicotiana Tabacum L ◽

Induced Variation ◽

Late Growth

Stage of maturity influences the susceptibility of N. tabacum to virus X. This phenotypic variation is evidenced by a discontinuity of X infection in the inoculated leaves and a lack of systemic invasion of plants inoculated at a late growth stage compared with a complete infection of the inoculated leaves and a rapid systemic invasion of plants inoculated at an early growth stage.

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Gibberellic Acid and Salinity Affected Growth and Antioxidant Enzyme Activities in Castor Bean Plants at Early Growth Stage

Agronomy Journal ◽

10.2134/agronj14.0044 ◽

2014 ◽

Vol 106 (4) ◽

pp. 1340-1348 ◽

Cited By ~ 4

Author(s):

Guisheng Zhou ◽

Nimir Nimir ◽

Shiyuan Lu ◽

Fuyan Zhai ◽

Yonghui Wang

Keyword(s):

Gibberellic Acid ◽

Antioxidant Enzyme ◽

Enzyme Activities ◽

Castor Bean ◽

Growth Stage ◽

Early Growth ◽

Antioxidant Enzyme Activities ◽

Early Growth Stage ◽

Bean Plants

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Studies on the Growth Phase of Direct Sown Rice Plant. : 1. Effects of nitrogen deficiency at the early growth stage on the growth phase of direct sown rice plant.

Japanese Journal of Crop Science ◽

10.1626/jcs.36.3_302 ◽

1967 ◽

Vol 36 (3) ◽

pp. 302-309

Author(s):

Fukushi SEKIYA

Keyword(s):

Growth Phase ◽

Rice Plant ◽

Growth Stage ◽

Nitrogen Deficiency ◽

Early Growth ◽

Early Growth Stage

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Dynamics study of the adsorption and diffusion in early growth stage of AlN/α-Al2Ｏ3（0001） films

Acta Physica Sinica ◽

10.7498/aps.58.3553 ◽

2009 ◽

Vol 58 (5) ◽

pp. 3553

Author(s):

Yang Chun ◽

Feng Yu Fang ◽

Yu Yi

Keyword(s):

Growth Stage ◽

Early Growth ◽

Early Growth Stage ◽

Α Al2o3 ◽

And Diffusion

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Temporal Dynamics of Microcystins In Two Reservoirs With Different Trophic Status During The Early Growth Stage of Cyanobacteria

10.21203/rs.3.rs-1071653/v1 ◽

2021 ◽

Author(s):

Qingju Xue ◽

Ming Kong ◽

Liqiang Xie ◽

Tong Li ◽

Mengna Liao ◽

...

Keyword(s):

Growth Stage ◽

Trophic Status ◽

Temporal Dynamics ◽

Influence Factors ◽

Environmental Parameters ◽

Early Growth ◽

Cyanobacterial Blooms ◽

Organic Matters ◽

Early Growth Stage ◽

Density And Biomass

Abstract Harmful cyanobacterial blooms are increasing in frequency and severity, which makes their toxic secondary metabolites of microcystins (MCs) have been widely studied, especially in their distribution and influence factors in different habitats. However, the distribution of MCs on the early growth stage of harmful cyanobacteria and its influence factors and risks are still largely unknown. Thus, in the present study, two reservoirs (Lutian Reservoir and Lake Haitang) with different trophic status in China have been studied weekly from March to May in 2018, when the cyanobacteria communities were just in the early growth stage, to investigate the variation of MCs concentration and the relationships between MCs and environmental parameters. During the investigation, Lutian Reservoir and Lake Haitang were found to be mesotrophic and light eutrophic, respectively. In Lutian Reservoir, the concentration of EMCs was obviously higher than that of IMCs with a mean value of 0.323 and 0.264 μg/L, respectively. Meanwhile, the concentration of EMCs also fluctuated more sharply than that of IMCs. Congeners of IMC-YR and EMC-LR were respectively dominant in total concentrations of IMCs and EMCs. Unsurprisingly, in Lake Haitang, the concentrations of IMC and EMC were both significantly higher than that in Lutian Reservoir with a mean concentration of 0.482 and 0.472 μg/L, respectively. Differently, the concentration of MC-YR was dominant in both IMCs and EMCs, followed by MC-LR. In correlation analysis, the IMCs were significantly and positively correlated with the density and biomass of phytoplankton phyla and potential MCs-producing cyanobacteria and the parameters of water temperature (WT), nutrients and organic matters. Similar results were also observed for EMCs. While the different variation of MCs in two reservoirs might be primarily caused by the differences in WT, nutrients (especially phosphorus), organic matters and the composition of MCs-producing cyanobacteria. In addition, the coexistence of the dominant species of Pseudoanabaena sp., which can produce taste-and-odor compound of 2-methylisoborneol (2-MIB), might have significant impacts on the concentration and toxicity of MCs. Our results suggested that the risks posed by MCs at the early growth stage of cyanobacteria should also deserve our attentions, especially in mesotrophic water bodies.

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