Zunling Zhu’s research while affiliated with Nanjing Forestry University and other places

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Publications (61)


Exploring Ecological Quality and Its Driving Factors in Diqing Prefecture, China, Based on Annual Remote Sensing Ecological Index and Multi-Source Data
  • Article
  • Full-text available

September 2024

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9 Reads

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1 Citation

Land

Chen Wang

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Qianqian Sheng

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Zunling Zhu

The interaction between the natural environmental and socioeconomic factors is crucial for assessing the dynamics of plateau ecosystems. Therefore, the remote sensing ecological index (RSEI) and CatBoost-SHAP model were employed to investigate changes in the ecological quality and their driving factors in the Diqing Tibetan Autonomous Prefecture, China, from 2001 to 2021. The results showed an increase from 0.44 in 2001 to 0.71 in 2021 in the average RSEI for the Diqing Prefecture, indicating an overall upward trend in the ecological quality. Spatial analysis shows the percentage of the area covered by different levels of RSEI and their temporal changes. The results revealed that “good” ecological quality accounted for the largest proportion of the study area, at 42.77%, followed by “moderate” at 21.93%, and “excellent” at 16.62%. “Fair” quality areas accounted for 16.11% and “poor” quality areas only 2.57%. The study of ecological and socioeconomic drivers based on the CatBoost-SHAP framework also indicated that natural climate factors have a greater impact on ecological quality than socioeconomic factors; however, this effect differed significantly with altitude. The findings suggest that, in addition to strengthening climate monitoring, further advancements in ecological engineering are required to ensure the sustainable development of the ecosystem and the continuous improvement of the environmental quality in the Diqing Prefecture.

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Physiological Responses and Salt Tolerance Evaluation of Different Varieties of Bougainvillea under Salt Stress

August 2024

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61 Reads

Plants

Di Zhang

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Yuan Xue

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Ning Feng

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[...]

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Zunling Zhu

Soil salinization significantly impacts the ecological environment and agricultural production, posing a threat to plant growth. Currently, there are over 400 varieties of Bougainvillea with horticultural value internationally. However, research on the differences in salt tolerance among Bougainvillea varieties is still insufficient. Therefore, this study aims to investigate the physiological responses and tolerance differences of various Bougainvillea varieties under different concentrations of salt stress, reveal the effects of salt stress on their growth and physiology, and study the adaptation mechanisms of these varieties related to salt stress. The experimental materials consisted of five varieties of Bougainvillea. Based on the actual salinity concentrations in natural saline-alkali soils, we used a pot-controlled salt method for the experiment, with four treatment concentrations set: 0.0% (w/v) (CK), 0.2% (w/v), 0.4% (w/v), and 0.6% (w/v). After the Bougainvillea plants grew stably, salt stress was applied and the growth, physiology, and salt tolerance of the one-year-old plants were systematically measured and assessed. The key findings were as follows: Salt stress inhibited the growth and biomass of the five varieties of Bougainvillea; the ‘Dayezi’ variety showed severe salt damage, while the ‘Shuihong’ variety exhibited minimal response. As the salt concentration and duration of salt stress increase, the trends of the changes in antioxidant enzyme activity and osmotic regulation systems in the leaves of the five Bougainvillea species differ. Membrane permeability and the production of membrane oxidative products showed an upward trend with stress severity. The salt tolerance of the five varieties of Bougainvillea was comprehensively evaluated through principal component analysis. It was found that the ‘Shuihong’ variety exhibited the highest salt tolerance, followed by the ‘Lvyehuanghua’, ‘Xiaoyezi’, ‘Tazi’, and ‘Dayezi’ varieties. Therefore, Bougainvillea ‘Shuihong’, ‘Lvyehuanghua’, and ‘Xiaoyezi’ are recommended for extensive cultivation in saline-alkali areas. The investigation focuses primarily on how Bougainvillea varieties respond to salt stress from the perspectives of growth and physiological levels. Future research could explore the molecular mechanisms behind the responses to and tolerance of different Bougainvillea varieties as to salt stress, providing a more comprehensive understanding and basis for practical applications.


Figure 5. Analysis chart illustrating the correlation between leaf surface microstructure, nitrogen, phosphorus, potassium content, and dust retention ability. LF: Leaf Thickness; SL: Stomatal Length; SW: Stomatal Width; GWU: Upper Epidermal Groove Width; GWL: Lower Epidermal Figure 5. Analysis chart illustrating the correlation between leaf surface microstructure, nitrogen, phosphorus, potassium content, and dust retention ability. LF: Leaf Thickness; SL: Stomatal Length; SW: Stomatal Width; GWU: Upper Epidermal Groove Width; GWL: Lower Epidermal Groove Width; TP: Stomata; WN: Nitrogen Content; WP: Phosphorus Content; WK: Potassium Content; UTSP: Dust Retention per Unit Leaf Area.
A Study on the Dust Retention Effect of the Vegetation Community in Typical Urban Road Green Spaces—In the Case of Ying Tian Street in Nanjing City

March 2024

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43 Reads

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1 Citation

Sustainability

This study aimed to investigate the association between the plant community structure, leaf surface microstructure, nutrient element content, and the dust-retention capacity of garden plants in urban road green spaces. The plant community located along Ying Tian Street in Nanjing City was selected as the focal point of the investigation. Random sampling was performed on the urban road green spaces, determining the amount of dust trapped in plant leaves. Subsequently, the microstructure of the leaf surface was observed, and the content of nutrient elements in the plant leaves was determined. The study also entailed an analysis of the interrelationships between the leaf surface microstructure, plant nutrient element content, and the dust-retention ability of the plants. The findings of this study revealed notable variations in the dust-retention capacity of garden plants and the community structure observed along Ying Tian Street. Among the tree species, Cedrus deodara and Ginkgo biloba exhibited a remarkable dust-retention ability per unit leaf area. Among the shrub species, Abelia × grandiflora and Loropetalum chinense displayed a strong dust-retention capacity per unit leaf area. Similarly, Ophiopogon japonicus and Cynodon dactylon exhibited a robust dust-retention ability per unit leaf area among the herbaceous plants. Furthermore, the dust-retention ability of the plants exhibited a strong positive correlation with the dimensions of leaf stomata, specifically the length and width, while displaying a moderate positive correlation with the width of grooves on the upper and lower surfaces of the leaves. Conversely, the thickness of the leaves did not exhibit a significant correlation. Additionally, the nitrogen content of the leaves exerted a significant influence on the dust-retention ability of the plants (p < 0.05), although the phosphorus and potassium content factors did not exhibit a significant influence (p > 0.05). Based on the findings, it is recommended to prioritize the utilization of plants with robust dust-retention abilities, such as C. deodara, A. grandiflora, O. japonicus, and C. dactylon, and implement a mixed planting approach encompassing a combination of trees, shrubs, and herbaceous plants within urban road green spaces.


Figure 1. Different development stages of N. 'Eldorado' flower used in this study. (A): (S1) Bud stage; (S2) initial-flowering stage; (S3) full-flowering stage; and (S4) end-flowering stage. (B): Living habit of N. 'Eldorado'.
Classification of the volatile components in different parts of N. 'Eldorado' flowers.
Variation in the Floral Scent Chemistry of Nymphaea ‘Eldorado’, a Valuable Water Lily, with Different Flowering Stages and Flower Parts

March 2024

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90 Reads

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1 Citation

Plants

Nymphaea ‘Eldorado’, a valuable water lily, is a well-known fragrant plant in China. Studying the temporal and spatial characteristics of the floral components of this plant can provide a reference for the further development and utilization of water lily germplasm resources. In this study, headspace solid-phase microextraction (HS-SPME) combined with gas chromatography–mass spectrometry (GC-MS) was used to explore the types and relative contents of floral components at different flowering stages (S1: bud stage; S2: initial-flowering stage; S3: full-flowering stage; S4: end-flowering stage) and in different floral organs of N. ‘Elidorado’, combined with the observation of the microscopic structure of petals. A total of 60 volatile organic compounds (VOCs) were detected at different flowering stages, and there were significant differences in floral VOCs at different flowering stages and in different flower organs. The volatile compounds of N. ‘Eldorado’ can be divided into seven chemical classes,, namely, alkenes, alcohols, esters, aldehydes, ketones, alkanes, and others; the most common were alkenes and alkanes. A total of 39, 44, 47, and 42 volatile compounds were detected at S1, S2, S3, and S4. The VOCs present in high concentrations include benzaldehyde, benzyl alcohol, benzyl acetate, trans-α-bergamotene, α-curcumene, cis-α-farnesene, and so on. The types and total contents of volatiles at the full-flowering stage were higher than at other flowering stages. Comparing the VOCs in different parts of flower organs, it was found that the contents of alcohols, esters, and aldehydes were greatest in the petals, the alkenes in stamens were abundant with a relative content of up to 54.93%, and alkanes in the pistil were higher than in other parts. The types and total contents of volatiles in the stamens of N. ‘Eldorado’ were higher than those in other flower organs; they were the main part releasing fragrance. The observation of petal microstructure revealed that the size and quantity of the papillae on the epidermises of petals, the number of intracellular plastids, and the aggregates of floral components (osmophilic matrix granules) were significantly higher at the full-flowering stage than at the other flowering stages. This study suggested the main flowering stage and location at which the floral VOCs are released by N. ‘Eldorado’ and provided a reference for guiding the breeding of this water lily, exploring genetic patterns and developing related products.


Impacts of Climate Change on the Biogeography and Ecological Structure of Zelkova schneideriana Hand.-Mazz. in China

March 2024

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21 Reads

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1 Citation

Plants

This study utilized the platform for ensemble forecasting of species distributions, biomod2, to predict and quantitatively analyze the distribution changes of Zelkova schneideriana Hand.-Mazz. under different climate scenarios (SSP1-2.6 and SSP5-8.5) based on climate and land-use data. This study evaluated the geographic range changes in future distribution areas and the results indicated that, under both SSP1-2.6 and SSP5-8.5 scenarios, the distribution area of Zelkova schneideriana would be reduced, showing a trend towards migration to higher latitudes and elevations. Particularly, in the more extreme SSP5-8.5 scenario, the contraction of the distribution area was more pronounced, accompanied by more significant migration characteristics. Furthermore, the ecological structure within the distribution area of Zelkova schneideriana also experienced significant changes, with an increasing degree of fragmentation. The variables of Bio6 (minimum temperature of the coldest month), Bio2 (mean diurnal temperature range), Bio15 (precipitation seasonality), and elevation exhibited important influences on the distribution of Zelkova schneideriana, with temperature being particularly significant. Changes in land use, especially the conversion of cropland, had a significant impact on the species’ habitat. These research findings highlight the distributional pressures faced by Zelkova schneideriana in the future, emphasizing the crucial need for targeted conservation measures to protect this species and similar organisms.


Regional environmental differences significantly affect the genetic structure and genetic differentiation of Carpinus tientaiensis Cheng, an endemic and extremely endangered species from China

February 2024

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79 Reads

Differences in topography and environment greatly affect the genetic structure and genetic differentiation of species, and endemic or endangered species with limited geographic ranges seem to be more sensitive to changes in climate and other environmental factors. The complex topography of eastern China is likely to affect genetic differentiation of plants there. Carpinus tientaiensis Cheng is a native and endangered plants from China, and exploring its genetic diversity has profound significance for protection and the collection of germplasm resources. Based on AFLP markers, this study found that C. tientaiensis has low genetic diversity, which mainly came from within populations, while Shangshantou and Tiantai Mountain populations have relatively high genetic diversity. The Nei genetic distance was closely related to geographical distance, and temperature and precipitation notablely affected the genetic variation and genetic differentiation of C. tientaiensis. Based on cpDNA, this study indicated that C. tientaiensis exhibits a moderate level of genetic diversity, and which mainly came from among populations, while Tiantai Mountain population have the highest genetic diversity. It demonstrated that there was genetic differentiation between populations, which can be divided into two independent geographical groups, but there was no significant phylogeographic structure between them. The MaxEnt model showed that climate change significantly affects its distribution, and the suitable distribution areas in Zhejiang were primarily divided into two regions, eastern Zhejiang and southern Zhejiang, and there was niche differentiation in its suitable distribution areas. Therefore, this study speculated that the climate and the terrain of mountains and hills in East China jointly shape the genetic structure of C. tientaiensis, which gived rise to an obvious north-south differentiation trend of these species, and the populations located in the hilly areas of eastern Zhejiang and the mountainous areas of southern Zhejiang formed two genetic branches respectively.


Research on the Construction and Application of Rural Digital Design Ecosystem under the “Dual Carbon” Goal—Take the Carbon Sequestration Benefits of Street Trees in Nanjing’s Bulao Village as an Example

February 2024

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39 Reads

Forests

By constructing a rural digital design ecosystem, this paper develops ecological villages through design empowerment, enhances the carbon sequestration benefits of plants in rural areas, and strengthens rural vitality. Combined with the carbon sequestration benefits of street trees in Bulao Village in Nanjing, the feasibility of the digital design ecosystem in rural planning was verified, and the ways and methods of rural environmental renewal were explored. Through the existing literature, the possibility of constructing a digital design ecosystem was deduced, the theoretical framework was derived, field research was carried out in the village of Bulao, the carbon sequestration benefit of street trees was quantified by the i-Tree model, and a structure chart of street trees, including breast diameter, tree height, type, etc., was formed. There were 35 species of street trees in Bulao Village, belonging to 33 genera in 22 families, including 19 species of trees, a total of 312 trees, and 16 species of shrubs. The street trees’ total carbon sink benefit was equivalent to RMB 30,327.47, a single street tree’s average carbon sequestration benefit was RMB 96.86, and the average CO2 absorption was 164.64 kg. The average CO2 absorption and single benefit of elm trees were the highest, reaching 465.48 kg·plant−1 and 186.81 RMB·plant−1, respectively. The CO2 absorption (185.13 kg) and the average benefit per plant (RMB 109.48) of the camphor tree were lower than those of the elm. However, because their number far exceeded that of elms, their total carbon sequestration benefit contribution was the highest, reaching RMB 25,837.28, accounting for 85.19% of the total benefit. In addition, the contribution rates of elm and willow’s total annual carbon sequestration benefits were also relatively high, reaching RMB 747.24 and RMB 710.04, respectively, accounting for 2.46% and 2.34% of the total benefits. This paper uses the digital design ecosystem’s theoretical framework to quantify street trees’ carbon sequestration benefits through field research. It optimizes and improves the plant allocation of parking lots in Bulao Village from the ecology and carbon sink perspectives. Practice shows that inheriting the connotation values of rural culture, improving the quality of the rural environment, and increasing residents’ and tourists’ sense of belonging and identity to the countryside are conducive to jointly promoting sustainable rural development against the background of “dual carbon”. Combining art design with quantitative scientific methods of ecological environment indicators provides a reference for future rural development.


Figure 3. Cluster analysis of dust retention quantity per unit leaf area, per leaf, and per plant in woody and shrubby plants.
Figure 5. Electron microscope scanning of microstructures on leaf surfaces of 13 types of garden plants. (A) Leaf cross-section; (B) leaf stomata; (C) leaf surface; (D) plant microstructural parameters;
Statistics of dust adhered to different plants per individual plant.
Dust Retention Effect of Greenery in Typical Urban Traffic Landscapes of Nanjing—In the Case of Xuanwu Avenue in Nanjing City

January 2024

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56 Reads

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1 Citation

Sustainability

With the accelerated process of urbanization, air pollution has become increasingly severe. Garden plants can trap atmospheric particulate matter, which is of great significance for improving the urban ecological environment and promoting sustainable development. To investigate the dust retention effect of typical transportation green spaces in Nanjing, this study focuses on thirteen garden plants on Xuanwu Avenue in Nanjing. The dust retention capacity of these plants was determined using the wash-off method, while the microstructure of their leaf surfaces was observed using scanning electron microscopy. The results are as follows: Firstly, per unit leaf area, Liriope spicata, Ophiopogon japonicus, and Viburnum odoratissimum demonstrate solid dust retention abilities. Additionally, Viburnum odoratissimum, Prunus serrulata var. Lannesiana, and Liriope spicata show strong dust retention abilities per single leaf. Moreover, Platanus acerifolia, Viburnum odoratissimum, and Cinnamomum camphora have strong dust retention abilities per plant. Viburnum odoratissimum, Platanus acerifolia, and Prunus serrulata var. Lannesiana exhibit the most substantial dust retention capacities. Secondly, there is a significant negative correlation between dust retention per plant and the potassium content, while a significant positive correlation is observed with plant height, canopy height, and leaf width. Furthermore, there is a highly significant positive correlation between dust retention per unit leaf area and stomatal length and a highly significant negative correlation with leaf length. The surface microstructure of the blade mainly increases the dust retention capacity of the blade by increasing the friction of the leaf surface. Lastly, specific leaf surface microstructures, such as grooved epidermis and trichomes, enhance plants’ dust retention capacity. Consequently, for the future configuration of road green spaces in Nanjing, a mixed planting mode of trees, shrubs, and grass is recommended. Priority should be given to selecting plants with strong overall dust retention capabilities, such as Platanus acerifolia, Viburnum odoratissimum, and Prunus serrulata var. Lannesiana, to alleviate air pollution, improve the urban ecological environment, and achieve sustainable development.



Acute NO2 Stress Shortens the Median Survival Period of Bougainvillea glabra 'Elizabeth Angus' by Disrupting Tissue Structure and Photosynthetic Response Centers

November 2023

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27 Reads

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1 Citation

Plants

The air pollutant NO2 is one of the major constraints on plant growth, and the ecological value of the ornamental plant Bougainvillea glabra can be weakened by NO2. In this study, an indoor 4 μL·L⁻¹ NO2 simulated fumigation test was conducted with three treatments, CK (normal growth with clean air), T1 (4 μL·L⁻¹ NO2 + 8 h/d), and T2 (4 μL·L⁻¹ NO2 + 24 h/d), which were set up with considerations for time and concentration. The results demonstrated that most of the morphological parameters of B. glabra ‘Elizabeth Angus’, except for the floral organs, were decreased in the root, stem, leaf, and bract. Continuous fumigation significantly attenuated the growth rate and reduced the water and pigment contents of organs. Excessive NO2 reduced the number and transfer rate of photoelectrons by destroying the photosynthetic reaction center, which in turn weakened photosynthesis, but the plants with intermittent fumigation recovered after fumigation. The Kaplan-Meier (K-M) survival curve displayed median survival periods of 41 and 55.5 h for T1 and T2, respectively, and the morphological structure and most of the indicators of photosynthetic reaction centers changed significantly during stress. Acute injury to B. glabra ‘Elizabeth Angus’ was caused by 4 μL·L⁻¹ NO2, and B. glabra ‘Elizabeth Angus’ had limited ability to regulate high concentrations of NO2 acute stress.


Citations (45)


... The types and contents of volatiles in flowers determine the aromas and functions of flowers. To date, VOCs in the Chinese rose and lily plants have been determined through headspace microextraction and gas chromatography-mass spectrometry [14][15][16][17]. A total of 47 VOCs were detected in both the rose [14] and lily [15], 43 VOCs were detected in Nymphaea hybrid [16], and 53 VOCs were detected in Panax notoginseng [17]. ...

Reference:

Metabolome and Transcriptome Combined Reveal the Main Floral Volatile Compounds and Key Regulatory Genes of Castanea mollissima
Variation in the Floral Scent Chemistry of Nymphaea ‘Eldorado’, a Valuable Water Lily, with Different Flowering Stages and Flower Parts

Plants

... Furthermore, it is not affected by anomalous values, as the median is robust to outliers. Accordingly, a median ensemble based on the TSS was employed in the modeling process [116]. The sensitivity-specificity approach was employed for the reclassification of the resulting continuous maps into binary maps [83]. ...

Impacts of Climate Change on the Biogeography and Ecological Structure of Zelkova schneideriana Hand.-Mazz. in China

Plants

... Several of the main issues that exacerbate the ongoing impacts of climate change are rising sea levels, dense populations in the developing world, increasing urbanization, and deteriorating city landscapes [1]. Land surface temperature (LST) and vegetation are two examples of environmental factors that are either directly or indirectly linked to climate change and eventually harm metropolitan areas [2], [3], [4]. Air pollution is a severe concern for Southeast Asian transport metropolitan areas that are densely populated and of poor standard, in addition to all these other problems [5], [6]. ...

Study on the changes in concentration of air pollutants and influencing factors in road green spaces in Nanjing City during autumn and winter
  • Citing Article
  • December 2023

Atmospheric Pollution Research

... where X represents the measured value of a certain indicator, and X max and X min , respectively, represent the minimum and maximum values in a certain indicator [54]. ...

Exogenous Salicylic Acid Alleviates NO2 Damage by Maintaining Cell Stability and Physiological Metabolism in Bougainvillea × buttiana 'Miss Manila' Seedlings

Plants

... Because PM2.5 has a small particle diameter, it is more harmful to human health and can easily induce respiratory diseases such as lung cancer and cardiovascular disease and has attracted widespread attention from all walks of life. Referring to the relevant literature [35], we use PM2.5 concentration to represent haze pollution. The accuracy of PM2.5 concentration raster data is 0.01° × 0.01° spatial resolution. ...

Spatiotemporal Variation and Pattern Analysis of Air Pollution and Its Correlation with NDVI in Nanjing City, China: A Landsat-Based Study

Forests

... Trees remove air pollution in gaseous form by uptake mainly via leaf stomata, but this role depends on the tree species, its physiological status, the environmental drivers of emission, and climate and air chemistry [5]. Urban vegetation improves air quality and microclimate, increases biodiversity, facilitates road traffic, enhances the aesthetic appeal of landscapes, regulates temperature, controls sound pollution, reduces stress, and thereby enhances the well-being of citizens [14][15][16][17]. Urban vegetation also plays a crucial role in enhancing slope stability by reinforcing soil cohesion and reducing the risk of landslides, particularly in clay slopes, through the mechanical support provided by plant root systems and water absorption processes [18]. ...

Influence of Urban-Road Green Space Plant Configurations on NO2 Concentrations in Nanjing City during Winter

Forests

... The Figure. and B. glabra [19,[26][27]. It was also observed that these sequences also share a similar identity to other Bougainvillea species genomes, such as B. peruviana or B. spinosa. ...

Complete Chloroplast Genomes and Phylogenetic Relationships of Bougainvillea spectabilis and Bougainvillea glabra (Nyctaginaceae)

International Journal of Molecular Sciences

... Among these approaches, MaxEnt models have become the most widely used species distribution models owing to the low data requirements, high prediction accuracy, and ease of use (Cao et al. 2022). This approach is widely used to provide guidance for the protection of valuable and endangered plants (Cao et al. 2016, Yang et al. 2022, risk assessment and prevention of invasive plants (Jin et al. 2022, Sorbe et al. 2023, Wang et al. 2022, Yan et al. 2020, plant introduction and relocation strategies (Kogo et al. 2019, Li et al. 2023, Wang et al. 2023c, analyses of plant migration under future climate scenarios (Hosseini et al. 2024, Lin et al. 2023, Wang et al. 2023a, Wang et al. 2023b, and biodiversity protection (Wang et al. 2024a, Wang et al. 2024b). ...

Differences in the Suitable Distribution Area between Northern and Southern China Landscape Plants

Plants

... Moreover, there was no significant correlation between the diversity indices and coefficients of variation for the 30 phenotypic traits in the sect. Tuberculate plants, which was the same as the findings for the other plants [45]. Overall, the magnitude of phenotypic variation was greater for fruits than for leaves, suggesting that the reproductive organs of plants in this taxon may have greater phenotypic plasticity in the face of environmental stress, making it easy for their populations to reproduce. ...

Study on the Phenotypic Diversity of 33 Ornamental Xanthoceras sorbifolium Cultivars

Plants

... A previous study has found that AtARF mutations in A. thaliana lead to changes in the number of stamens and petals [67]. Increased expression of PgARF may facilitate the development of stamens into petals in Punica granatum [68]. In Rosa rugosa, the auxin-regulatory gene RhARF18 encodes a transcriptional repressor of the class-C gene RhAG, which regulates the stamen-petal transition in an auxin-dependent manner [69]. ...

Citation

Plants