Search Results
Five peach cultivars [Prunus persica (L.) Batch] with different maturity dates were subjected to sink–source manipulation by girdling to isolate 1-year-old fruit-bearing shoots. Four treatments were performed: fruit were removed (−fruit); one fruit (+1 fruit) and two fruit (+2 fruit) were kept inside two girdling cuts; and two fruit were kept outside two girdling cuts (−fruit*). Photosynthetic responses for the five cultivars were similar and did not show genotypic differences. Generally, net photosynthetic rate (Pn), stomatal conductance (g s), and transpiration rate (E) were higher, and leaf temperature (Tl) was lower in +2 fruit than in +1 fruit, followed by −fruit and −fruit* which were not different. The results also indicated that water outflow from fruit into leaves did not influence photosynthesis, and lower photosynthesis in −fruit treatment was not due to water status of source leaves influenced by removing fruit. Pn tended to increase with Tl until Tl reached a critical level. Beyond the critical temperature level, Pn generally decreased. The critical Tl was roughly identified as 34–37 °C for the five cultivars. Both higher and lower substomatal CO2 (Ci) levels occurred in −fruit and −fruit* treatments than in +1 fruit and +2 fruit treatments, indicating that decreased Pn could be due to both nonstomatal and stomatal limitations. Further analysis of the relationship between Ci and photosynthetically active radiation (PAR) showed that nonstomatal limitation under low sink demand took place mostly under high PAR. Thus, high light intensity, combined with Tl may play an important role in leaf photosynthetic regulation.
The art of pressed flowers is a method of artistic expression involving the pressing of flowers, leaves, and other plant organs for artistic creative purposes. However, the pressing process often results in color variation of the plant material, which significantly diminishes the quality of artistic works and must be solved using appropriate techniques. During this research, phenylalanine (10 mmol⋅L−1) was used to treat the petals of postharvest Petunia flowers to investigate the impact of phenylalanine on mitigating color variation, and the effect of phenylalanine on inhibiting the color variation of Petunia petals during the pressing process was evaluated by color measurement, physicochemical indices, and gene expression level analyses. Using the CIEL*a*b* color measurements, the samples from the test group had significantly higher brightness (L*) and red coloration (a*) at the final stage (S4) than the control group. In addition, phenylalanine had a significant inhibitory effect on malondialdehyde and superoxide anion accumulations in Petunia petals during pressing and reduced the enzymatic activities of superoxide dismutase, polyphenol oxidase, and catalase. The quantitative reverse-transcription polymerase chain reaction analysis showed that the transcript levels of CHS, DFR, F3′5′H, and UFGT genes in the petals of the treatment group continued to increase during the pressing process, and the transcript levels of key genes in the anthocyanin metabolic pathway of the treated samples were higher than those of the control group at the final stage (S4). These results indicated that phenylalanine can effectively diminish the color variation of Petunia petals in the pressing process, which could serve as a theoretical basis for the development of a comprehensive technology system aimed at preserving the color of pressed horticultural plants.
Landrace tea populations are important recourses for germplasm conservation and selection of elite tea clone cultivars. To understand their genetic diversity and use them effectively for breeding, two traditional landrace tea populations, Beichuan Taizicha (BCTZ) and Nanjiang Dayecha (NJDY), localized to northern Sichuan, were evaluated for morphological characters, simple sequence repeat (SSR)–based DNA markers and the contents of biochemical components. A wide range of morphological variation and a moderately high level of DNA polymorphism were observed from both BCTZ and NJDY. NJDY had on average, bigger leaves, larger flowers, higher total catechins (TCs), and greater gene diversity (GD) than BCTZ. Interestingly, samples from BCTZ had a wide range in the ratio of galloylated catechins to nongalloylated catechins (G/NG) (1.83–8.12, cv = 48.8%), whereas samples from NJDY were more variable in total amino acid (TAA) content (25.3–50.8 mg·g−1 dry weight) than those from BCTZ. We concluded that the two Camellia sinensis landrace populations are of great interest for both individual selection breeding and scientific studies.