IF: 3.0
5-year IF: 2.5
Editors-in-Chief
Yuanhe Yang
Bernhard Schmid
CN 10-1172/Q
ISSN 1752-9921(print)
ISSN 1752-993X(online)
  • Volume 17,Issue 6
    01 November 2024
      Review
      Li-Qun Lin, Luke R. Tembrock, Li Wang
      2024, 17 (6): rtae051.
      Abstract ( 27 )   PDF(pc) (1941KB) ( 8 )   Save
      Phylosymbiosis, the congruence of microbiome composition with host phylogeny, is a valuable framework for investigating plant–microbe associations and their evolutionary ecology. This review assesses the prevalence of phylosymbiosis across the plant kingdom, elucidates the fundamental ecological and evolutionary processes contributing to its occurrence based on previous research and explores commonly used methods for identifying phylosymbiosis. We find that the presence of phylosymbiosis may be influenced by both phylogenetic distance and the taxonomic level at which host plants are examined, with the strength of associations potentially decreasing as the taxonomic scale becomes finer. Notably, the endophytic microbiome exhibits a stronger phylosymbiosis signal compared with the epiphytic or rhizosphere-associated microbiomes. Microorganisms such as fungi and bacteria can yield highly variable evidence for phylosymbiosis due to differences in colonization, transmission or functional characteristics. We also outline how the four community assembly processes (dispersal, selection, diversification and drift) contribute to the establishment and maintenance of host–microbe phylosymbiosis. Furthermore, we highlight the diversity of methods employed to detect phylosymbiosis, which involves three key processes: constructing host phylogenies, assessing microbial data and statistically evaluating the correlation between host phylogeny and microbial composition. Remarkably different methodologies across studies make comparisons between findings challenging. To advance our understanding, future research is expected to explore phylosymbiosis at lower taxonomic levels and investigate different microbial communities coexisting synergistically within the same host. Understanding the relative importance of community assembly processes in driving phylosymbiosis will be critical for gaining deeper insights into the ecology and evolution of host–microbe interactions.
      Research Articles
      Shengwei Si, Yue He, Zongpei Li, Zhichao Xia
      2024, 17 (6): rtae064.
      Abstract ( 35 )   PDF(pc) (2785KB) ( 5 )   Save
      Dioecious plants show sexual dimorphism in their phosphorus (P) availability responses. However, the understanding of sex-specific strategies for P utilization and acquisition under varying soil moisture levels remains unclear. Here, we assessed a range of root functional traits, soil P properties, total foliar P concentration ([P]) and leaf chemical P fractions—inorganic P ([Pi]), metabolite P ([PM]), lipid P ([PL]), nucleic acid P ([PN]) and residual P ([PR])—as well as other leaf functional traits in female and male trees under different soil moisture levels (25% for high and 7% for low). Our results showed that females had larger specific root length under well-watered conditions, resulting in greater root foraging capacity. This led to a 36.3% decrease in soil active [Pi] in the rhizosphere and a 66.9 % increase in total foliar [P], along with all five foliar chemical P fractions ([Pi], [PM], [PL], [PN] and [PR]) compared with males. However, males exhibited significantly higher photosynthetic P utilization efficiency than females. Especially under low soil moisture levels, males exhibited a significant reduction in soil active organic P, coupled with a large increase in the exudation of soil phosphatases and carboxylates. Furthermore, the proportion of [PM] in total foliar [P] was 42.0% higher in males than in females. Mantel and Spearman correlation analyses revealed distinct coordination and trade-offs between foliar P fraction allocation and below-ground P acquisition strategies between the two sexes. Leveraging these sex-specific strategies could enhance the resilience of dioecious populations in forest plantations facing climate-induced variability.
      Binyang Liu, Xinru Zhang, Gaoming Jiang
      2024, 17 (6): rtae066.
      Abstract ( 13 )   PDF(pc) (3241KB) ( 6 )   Save
      Industrialization and the rapid growth of economies have caused severe environmental pollution, which might impact the survival of sensitive species. In this study, we investigated the defense responses of two common mosses with varying anti-haze capacities, Hypnum callichroum and Homomallium incurvatum, in response to simulated haze pollution. Photoprotection and antioxidant mechanisms of both mosses were measured immediately after the first exposure to the haze treatment, followed by the initial recovery stage and again after exposure to secondary stress and secondary recovery. Haze exposure caused severe oxidative stress and photodamage in both H. callichroum and H. incurvatum. Metabolic processes such as photorespiration, the ascorbate–glutathione cycle and secondary metabolism—which play roles in defense responses—were significantly activated in both moss species after haze treatment. During the recovery following haze stress, H. callichroum exhibited a significant stress memory response, as evidenced by the greater accumulation of several memory substances, including xanthophylls and phenolic acids. However, H. incurvatum did not exhibit a strong stress memory response, which might explain its relatively inferior anti-haze capacity in the natural environment.
      Pei-Pei Cao, Wan-Dong Yin, Jing-Wen Bi, Tian-Tian Lin, Sheng-Yu Wang, Hang Zhou, Zhi-Yong Liao, Lei Zhang, Madalin Parepa, Rui-Ting Ju, Jian-Qing Ding, Ming Nie, Oliver Bossdorf, Christina L. Richards, Ji-Hua Wu and Bo Li
      2024, 17 (6): rtae067.
      Abstract ( 37 )   Save
      Invasive plant species pose signifcant ecological and economic threats due to their establishment and dominance in non-native ranges. Previous studies have yielded mixed results regarding the plants’ adaptive mechanisms for thriving in new environments, and particularly, little is known about how the phenotypic plasticity of growth and defense-related traits may facilitate plant invasion. This study addressed these uncertainties by employing the aggressive weed Reynoutria japonica as a study model. We examined the differences in growth, defenserelated traits and biomass allocation between R. japonica populations from native and introduced ranges grown in two common gardens with distinct climate conditions. Our results demonstrated that while the introduced populations did not exhibit increases in height and total dry mass, nor reductions in leaf defense levels, their investment in leaf production was signifcantly higher compared to the native populations. Additionally, introduced populations displayed greater phenotypic plasticity in clonal ramet but less phenotypic plasticity in biomass production than native populations across varying environments. These fndings highlight the roles of phenotypic plasticity and specifc trait adaptations, such as clonality, in the successful invasion of R. japonica. This study has important implications for managing invasive plant species under changing environmental conditions. Keywords: pl
      Nan Jiang, Miaogen Shen and Zhiyong Yang
      2024, 17 (6): rtae063.
      Abstract ( 21 )   PDF(pc) (2210KB) ( 9 )   Save
      Vegetation green-up is occurring earlier due to climate warming across the Northern Hemisphere, with substantial infuences on ecosystems. However, it is unclear whether temperature responses differ among various green-up stages. Using high-temporal-resolution satellite data of vegetation greenness and averaging over northern vegetation (30–75° N), we found the negative interannual partial correlation between the middle green-up stage timing (50% greenness increase in spring–summer) and temperature (RP = −0.73) was stronger than those for the onset (15% increase, RP = −0.65) and end (90% increase, RP = −0.52) of green-up during 2000–2022. Spatially, at high latitudes, the middle green-up stage showed stronger temperature responses than the onset, associated with greater low-temperature constraints and stronger control of snowmelt on green-up onset as well as greater spring frost risk. At middle latitudes, correlations with temperature were similar between the onset and middle stages of green-up, except for grasslands of the Mongolian Plateau and interior western USA, where correlations with temperature were weaker for the middle stage due to water limitation. In contrast, the end of the green-up showed weaker temperature responses than the middle due to insuffcient water and high climatic temperature during the end of the green-up in most of the study region, except for cold regions in the interior western USA, western Russia and the Tibetan Plateau, where temperature was still a main driver during end of green-up. Our fndings underscore the differences in temperature responses among green-up stages, which alters the temporal alignment between plants and environmental resources.
      Meixia Liu, Zonghao Hu, Yi Fan, Bin Hua, Wei Yang, Shuang Pang, Rong Mao, Yang Zhang, Keyu Bai, Carlo Fadda, Paola De Santis, Nadia Bergamini, Aziza Usmankulova, Buriyev Salimjan Samedjanovich and Ximei Zhang
      2024, 17 (6): rtae065.
      Abstract ( 10 )   PDF(pc) (1284KB) ( 5 )   Save
      As a crucial strategy for sustainable agricultural production, green manure–crop rotation can regulate soil nutrient cycling and decrease the reliance on nitrogen fertilizers. However, we still lack a comprehensive understanding of the changes in soil eco-enzyme activities, microbial metabolism and nutrient limitations caused by leguminous green manure–crop rotation. Here, we conducted field experiments of leguminous green manure–crop rotation across China to analyze soil extracellular enzyme activities, specifically β-glucosidase (BG), N-acetyl-β-d-glucosaminidase (NAG), leucine aminopeptidase (LAP) and acid phosphatase (AP). The study revealed that long-term green manure–crop rotation increased carbon and nitrogen accumulation in farmland, with a significant average increase of 20.1% and 36.4% in BG, AP enzyme activities in topsoil, while showing a decrease in ln(NAG + LAP):ln(AP) ratios. The ratios of ln(BG):ln(NAG + LAP) and ln(NAG + LAP):ln(AP) in soil across various regions were typically below 1:1, indicating that soil microbial activity is more constrained by nitrogen and phosphorus nutrients rather than by carbon. Precipitation, temperature, soil total carbon (TC) and total nitrogen (TN) were identified as key environmental factors for extracellular enzyme activities and stoichiometric ratios. Our study highlights that the green manure–crop rotation alleviates nitrogen limitation while enhancing phosphorus limitation, and is closely related to the accumulation of TC and TN in the soil.
      Hao-Ming Yuan, Wei Xue , Sergio Roiloa Jun Yao and Fei-Hai Yu
      2024, 17 (6): rtae068.
      Abstract ( 18 )   PDF(pc) (1390KB) ( 5 )   Save
      Biochar is a promising material for soil remediation. However, most studies testing the roles of biochar in soil remediation have considered the use of single types of biochar, and the role of biochar diversity, as well as its interaction with species diversity of plant communities, has rarely been considered. We hypothesize that biochar diversity can infuence the impacts of plant diversity on soil remediation. We grew grassland communities consisting of three or six plant species in cadmium (Cd)-contaminated soil mixed with one, two or four types of biochar, with no grassland community and no biochar addition as the controls. Without plant communities or with communities consisting of three species, total Cd was signifcantly lower in the soil mixed with four types of biochar than in the soil without biochar or mixed with one or two types of biochar. With communities consisting of six species, total Cd decreased with the increasing number of biochar types. Without biochar addition, soil total Cd was not infuenced by species richness, but with biochar addition, it was lower in the presence of communities with six species than in the absence of plant communities irrespective of how many types of biochar were added. Also, soil total Cd was lower in the presence of communities with six than with three plant species when two or four types of biochar were added. Our study indicates that increasing biochar diversity can promote the impact of plant diversity on remediating soil contaminated by heavy metals such as Cd.
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    Forest encroachment in Eastern European forest-steppes at a decadal time scale
    László Erdős, Gábor Ónodi, Csaba Tölgyesi, György Kröel-Dulay, Zoltán Bátori, Eszter Aradi, Péter Török, Khanh Vu Ho, Indri Puspitasari, László Körmöczi
    doi: 10.1093/jpe/rtae086
    Abstract ( 4 )    PDF    Save
    In the Eurasian forest-steppe, with increasing aridity, the balance between naturally co-existing forest and grassland patches is expected to shift towards grassland dominance in the long run, although feedback mechanisms and changes in land-use may alter this process. In this study, we compared old and recent aerial photographs of Hungarian forest-steppes to find out whether and how the forest proportion and the number of forest patches change at the decadal time-scale. The percentage area covered by forest significantly increased in all study sites. The observed forest encroachment may be a legacy from earlier land-use: due to ceased or reduced grazing pressure, forests are invading grasslands until the potential forest cover allowed by climate and soil is reached. The number of forest patches significantly increased at one site (Fülöpháza), while it decreased at two sites (Bugac and Orgovány) and showed no significant change at the fourth site (Tázlár). This indicates that forest encroachment can happen at least in two different ways: through the emergence of new forest patches in the grassland, and through the extension and coalescence of already existing forest patches. Though the present work revealed increasing tree cover at a decadal time scale, the dynamic process should be monitored in the future to see how the vegetation reacts to further aridification. This could help devise conservation strategy, as the woody/non-woody balance has a profound influence on basic ecosystem properties.
    Regeneration and colonization abilities of submerged macrophytes under different fragment types and lengths: comparison of the invasive species Myriophyllum aquaticum and the native species Myriophyllum spicatum
    Min Zou, Xiao-Wen Lin, Xiao-Dong Wu, Yuan Qin, Xu-Guang Ge, Jian-Jun Hou, Xiao-Xia Li, Shuang Peng
    doi: 10.1093/jpe/rtae085
    Abstract ( 3 )    PDF    Save
    Alien invasive species usually have strong regeneration and colonization abilities. However, whether invasive species have advantages in term of regeneration and colonization ability over native species requires further exploration. In this study, the effects of fragment types (with and without apical tips) and lengths (5, 10, and 15 cm) on the regeneration and colonization abilities of the invasive Myriophyllum aquaticum (M. aquaticum) and native Myriophyllum spicatum (M. spicatum) in China were studied. Fragments of M. aquaticum and M. spicatum without apical tips had an advantage in branch formation, and their regeneration ability was stronger than that of fragments with apical tips. With longer initial fragments, the root length of M. aquaticum were longer and its colonization ability was stronger. This resulted in an increase in plant length, stem node number, and biomass, with an increase in fragment length. But the colonization ability of M. spicatum do not stronger with longer fragment. On the whole, native M. spicatum had stronger regeneration and colonization abilities than the invasive species M. aquaticum. However, M. aquaticum had a higher survival rate and plant length, enabling it to quickly occupy living spaces. Our results suggest that management needs to strengthened for both M. aquaticum and M. spicatum to avoid biological invasion.
    Are shade tolerance and canopy gradient affecting twig-leaf trait scaling relationships in temperate forests?
    Tao Zeng, Hongkun Fan, Guangze Jin, Zhili Liu
    doi: 10.1093/jpe/rtae082
    Abstract ( 15 )    PDF    Save
    Scaling relationships among twig size, leaf size and leafing intensity is pivotal in understanding plant resource allocation, and carbon investment strategies. However, it remained unclear how these relationships might maintain stability across genetic traits (shade tolerance) and canopy gradients (microclimates). We investigated eight different shade-tolerant tree species within five mixed broadleaved-Korean pine (Pinus koraiensis) forests in Northeast China. Employing linear mixed-effects models and phylogenetically independent contrasts, we examined the scaling relationships between twig-leaf size and leafing intensity. Shade tolerance altered the scaling relationships between twig and leaf size, as well as leafing intensity. We discovered that the scaling relationships between twig cross-sectional area and individual leaf area, leafing intensity, and between individual leaf mass and leafing intensity were allometric (slope ≠ -1 or 1). However, the relationship between individual leaf area and individual leaf mass was isometric (slope = 1). Moreover, these scaling relationships exhibited consistent trends across canopy gradients, with shade tolerance playing a critical role in the coordinated evolution of twigs and leaves across these gradients. We emphasized the significant role of shade tolerance in coordinating the covariation patterns between plant leaves and twigs, adopting conservative strategies in heterogeneous microclimates. Our results provide new insights into plant resource allocation patterns
    Molecular and Ecological Data Reveals that Cyclical Drought and Herbivore Threats are Potential Causes of the Leaf Variegation Dimorphism in Cypripedium forrestii
    Lie-wen Lin, Hua Huang, Wei-wei Liu, Wei-bang Sun Author Notes
    doi: 10.1093/jpe/rtae081
    Abstract ( 5 )    PDF    Save
    Leaf variegation, the mosaic of colors on the leaf surface, can be developed by certain plant species without external influence. Although it may be associated with a variety of functions, the stable existence of different leaf color morphs within a plant species has not been fully explained by previous studies. This study focuses on the two leaf morphs of Cypripedium forrestii, an endangered lady slipper orchid, and compares their micromorphological structure, photosynthetic potential, differentially expressed genes (DEGs), and ecological features to gain a comprehensive understanding of the underlying leaf variegation polymorphism. Our findings demonstrate that leaf variegation is not pathological and does not affect photosynthetic potential. Additionally, it significantly reduces herbivory damage. We found that the probability of herbivory and leaf area loss for variegated leaves was notably higher under drought conditions. Therefore, variegated individuals may be more adaptive under such conditions, while non-variegated ones may be more cost-effective in normal years. These results suggest that different leaf color morphs may be favored by varying environmental conditions, and leaf polymorphism may be a legacy of ancient climate and herbivore fluctuations.
    Climate warming advances plant reproductive phenology in China’s northern grasslands
    Lu Bai, Lei Tian, Zhiguo Ren, Xiaohui Song, Kailiang Yu, Lin Meng, Zhanfeng Hou, Haiyan Ren
    doi: 10.1093/jpe/rtae080
    Abstract ( 16 )    PDF    Save
    Despite much recent progress, our understanding of plant phenology response to climate change remains incomplete. In particular, how and to what extent climate warming affects vegetative and reproductive phenology of different plant functional groups in northern grassland ecosystems remain largely unexplored. Here, we compiled data of 1758 observations from 25 individual studies and carried out a meta-analysis of plant phenology in relation to temperature changes across a range of plant species and functional groups in northern China. We show that climate warming tended to extend the duration of reproductive phenology while having no effect on the duration of vegetative phenology. We also identified specific temperature sensitivities for different phenological stages: 1.73 days °C-1 for budding, −3.38 days °C-1 for leaf-spreading, and 0.56 days °C-1 for yellow withered stage, respectively. Notably, warming resulted in earlier leaf-spreading in shrubs and semi-shrubs, but caused a delay in the budding time of sedges. In terms of reproductive phenology, temperature sensitivity was −1.73 days °C-1 for flowering time, −2.53 days °C-1 for fruit ripening, and −0.11 days °C-1 for fruit shedding, respectively. Warming advanced the flowering and fruit repining time of all functional groups except for legumes. Our results indicate that elevated temperatures advanced reproductive phenology and extended its duration in northern grasslands, while showing no impact on vegetative phenology. Our findings demonstrate the differential responses of different functional groups to warming, highlighting the diverse growth strategies and adaptation of grassland plants in a warming world.
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