Your search keyword '"Baoli Fan"' showing total 4 results

1. Factors influencing the natural regeneration of the pioneering shrubCalligonum mongolicumin sand dune stabilization plantations in arid deserts of northwest China

Author

A. D. McHugh, Guo Shujiang, Changming Zhao, Qiushi Yu, Quanlin Ma, Weixing Zhang, Juan Du, Xiaojuan Zhang, Jianhui Zhang, and Baoli Fan

Subjects

0106 biological sciences, education.field_of_study, Pioneer species, Ecology, Soil seed bank, Population, Soil classification, Silt, Soil type, 010603 evolutionary biology, 01 natural sciences, Sand dune stabilization, Agronomy, Soil compaction, Environmental science, education, Ecology, Evolution, Behavior and Systematics, 010606 plant biology & botany, Nature and Landscape Conservation

Abstract

Calligonum mongolicum is a successful pioneer shrub to combat desertification, which is widely used for vegetation restoration in the desert regions of northwest China. In order to reveal the limitations to natural regeneration of C. mongolicum by asexual and sexual reproduction, following the process of sand dune stabilization, we assessed clonal shoots, seedling emergence, soil seed bank density, and soil physical characteristics in mobile and stabilized sand dunes. Controlled field and pot experiments were also conducted to assess germination and seedling emergence in different dune soil types and seed burial depths. The population density of mature C. mongolicum was significantly different after sand dune stabilization. Juvenile density of C. mongolicm was much lower in stabilized sand dunes than mobile sand dune. There was no significant difference in soil seed bank density at three soil depths between mobile and stabilized sand dunes, while the emergence of seedlings in stabilized dunes was much lower than emergence in mobile dunes. There was no clonal propagation found in stabilized dunes, and very few C. mongolicum seedlings were established on stabilized sand dunes. Soil clay and silt content, air-filled porosity, and soil surface compaction were significantly changed from mobile sand dune to stabilized dunes. Seedling emergence of C. mongolicm was highly dependent on soil physical condition. These results indicated that changes in soil physical condition limited clonal propagation and seedling emergence of C. mongolicum in stabilized sand dunes. Seed bank density was not a limiting factor; however, poor seedling establishment limited C. mongolicum's further natural regeneration in stabilized sand dunes. Therefore, clonal propagation may be the most important mode for population expansion in mobile sand dunes. As a pioneer species C. mongolicum is well adapted to propagate in mobile sand dune conditions, it appears unlikely to survive naturally in stabilized sand dune plantations.

Published

2018

2. Development of SSR molecular markers for Allium mongolicum

Author

Qian Zhang, Qiushi Yu, Baoli Fan, Jing Hu, Xiaoke Hu, and Zhang Jinhu

Subjects

0301 basic medicine, Genetics, Allium mongolicum, education.field_of_study, Genetic diversity, Population, Locus (genetics), Biology, biology.organism_classification, Biochemistry, 03 medical and health sciences, chemistry.chemical_compound, genomic DNA, 030104 developmental biology, chemistry, Genetic marker, Molecular marker, Microsatellite, education, Molecular Biology

Abstract

Allium mongolicum is high palatability, nutrient, medicinal value and drought resistance wild plant. However, a lack of molecular markers of this plant results in a series of genetic questions remain largely unknown, including molecular marker data, population genetic structure and accuracy of genetic breeding. In this study, a total of 1,409,706 quality-filtered and trimmed reads were obtained from the normalized genomic DNA of pooled A. mongolicum individuals. These sequences were assembled into 2,093,593 high quality contigs, and a total of 219 simple sequence repeats loci were screened. Sixty of them were selected to validate amplification and to determine the degree of polymorphism in the genomic DNA pools. Fifteen primer pairs successfully amplified DNA fragments and detected significant amounts of polymorphism. The number of alleles in ten geographically diverse A. mongolicum populations ranged from 3 to 8 per locus. The observed and expected heterozygosities ranged from 0.350 to 0.860 and 0.516 to 0.931, respectively. Our results provide a valuable resource for A. mongolicum research.

Published

2017

3. Effect of flowering time on floral sexual durations and phenotypic gender in dichogamous Aconitum gymnandrum

Author

Baoli Fan, Lin Li, Zhi-Gang Zhao, and Ning-Na Lu

Subjects

education.field_of_study, Ecology, Reproductive success, Phenology, fungi, Population, food and beverages, Zoology, Biology, Inflorescence, Botany, Mating, education, Sexual function, Ecology, Evolution, Behavior and Systematics, Sex allocation, Sex ratio, Nature and Landscape Conservation

Abstract

The flowering time plays an important role in the mating opportunities of male and female functions and final reproductive success in plants. The mating environment hypothesis predicts that the differences of flowering time in protandrous species can change individual's phenotypic gender and the mating environment within a population, finally affect the optimal allocation of resources to sexual functions. To determine the effect of flowering time on sexual durations and phenotypic gender in protandrous plants, we recorded the male and female phase durations of all flowers in protandrous Aconitum gymnandrum (Ranunculaceae), and examined the relationships of flowering phenology and floral sexual durations and phenotypic gender. The results showed that the late flowers (top) had longer male duration versus female duration compared to early those (basal) within a inflorescence, showing temporally male-biased allocation. The relatively temporal allocations to both sexual durations also presented a similar trend among plants with different flowering time. Relatively longer male duration vs. female duration in the later flowers or late-flowering individuals, showed temporally male-biased allocation. Furthermore, individual's variation in flowering time affected floral sex ratio within population and the dynamics of phenotypic gender of individuals. It showed a shift from male-biased to female-biased gender during flowering season in A. gymnandrum population, because most of the individuals had only male-phase flowers at the beginning of flowering stage and only female- phase flowers at the end. Therefore, mean phenotypic gender of individuals shifted from femaleness to maleness with flowering time. Our results support the mating environment hypothesis, i.e. male-biased floral sexual ratio (mating environment) early in protandrous A. gymnandrum population leads to female-biased phenotypic gender of individuals flowered early and thus female-biased temporal sex allocation in early-flowering individuals and early flowers within inflorescences in comparison with the late-flowering individuals and late flowers.

Published

2016

4. Impacts of Sand Burial and Wind Erosion on Regeneration and Growth of a Desert Clonal Shrub

Author

Baoli Fan, Changming Zhao, Xiaowei Zhang, and Kun Sun

Subjects

0106 biological sciences, Population, ved/biology.organism_classification_rank.species, Plant Science, Biology, lcsh:Plant culture, 010603 evolutionary biology, 01 natural sciences, Shrub, Sand dune stabilization, stomatognathic system, parasitic diseases, Calligonum mongolicum, lcsh:SB1-1110, wind erosion, education, Chlorophyll fluorescence, Original Research, clonal fragment, education.field_of_study, ved/biology, sand burial, fungi, Agronomy, Habitat, Shoot, Erosion, clonal integration, Aeolian processes, physiological and biochemical, 010606 plant biology & botany

Abstract

Sand burial and wind erosion caused by sand movement are common phenomena in desert environments, but the effects on clonal shrub have rarely been investigated. Here, we assessed how sand movements affect the population regeneration capacity of juvenile clonal fragments of the shrub Calligonum mongolicum growing in mobile desert sand dunes. We investigated the population status and natural regeneration capacity in three types of mobile dunes (heavy wind erosion, heavy sand burial and moderate sand burial). Clonal propagation of C. mongolicum was markedly different across sites. Moderate sand burial sites had the largest ramet density and bud number per unit length of rhizome, and the overwinter survival rate was significantly higher at sand burial sites than at wind erosion sites, suggesting that C. mongolicum may have well adapted to the moderate sand burial environment. We further examined the effects of clonal integration on clonal regeneration of this species. Physiological, biochemical and morphological characteristics of parent and daughter ramets growing in heterogeneous sandy habitats (sand burial or wind erosion) were measured. The results showed that being connected or severed from the maternal plant critically determined survival of daughter ramets on wind eroded rhizomes. When eroded rhizomes remained connected, the mother ramets had the highest chlorophyll a, b and a + b contents. However, both the mother plant and the daughter ramets undergoing erosion had higher proline and soluble protein levels than sand buried ramets. Meanwhile, the daughter ramets undergoing sand burial had higher photosynthetic rates (Pn), chlorophyll fluorescence parameters (Fm and Fo), and phenotypic traits of assimilating shoots, i.e., node number, length and volume than wind-eroded ramets. However, significant differences with mother plants, whether connected or severed, were very limited. It was concluded that moderate sand burial environments promoted clonal reproduction and growth of C. mongolicum. Additionally, physiological integration with mother raments in favorable conditions can alleviate stress on daughter ramets exposed to wind erosion. This physiological effect may do not occur for sand buried daughter ramets. These survival strategies and phenotypic responses should be carefully considered in shrub and sand dune management in sand fixation plantations of C. mongolicum.

Published

2018