Your search keyword '"PHYTOGEOGRAPHY"' showing total 16 results

1. Potential expansion of plants with crassulacean acid metabolism in the Anthropocene.

Author

Yu, Kailiang, D'Odorico, Paolo, Novoa, Ana, Collins, Scott L, Hartzell, Samantha, Huang, Heng, Liu, Hui, Weigelt, Patrick, and Porporato, Amilcare M

Subjects

*CRASSULACEAN acid metabolism, *ATMOSPHERIC carbon dioxide, *ECOPHYSIOLOGY, *BIOGEOGRAPHY, *PHYTOGEOGRAPHY

Abstract

An overlooked phenomenon is a potential increase in the distribution and abundance of plants with the highly water-usage-efficient crassulacean acid metabolism (CAM). In the present article, we critically analyze recent research to investigate to what extent and why CAM plants may have recently expanded their range and abundance under global change. We discuss the ecophysiological and evolutionary mechanisms linked with CAM succulence and the drivers underlying potential CAM expansion, including drought, warming, and atmospheric carbon dioxide enrichment. We further map the biogeographic pattern of CAM expansion and show that some CAM plants (e.g. Cylindropuntia, Opuntia, and Agave) are expanding and encroaching within dryland landscapes worldwide. Our results collectively highlight the recent expansion of CAM plants, a trend that could be sustained under increasing aridity with climate change. We recommend that CAM expansion be evaluated in a data-model integrated framework to better understand and predict the ecological and socioeconomic consequences of CAM expansion during the Anthropocene. [ABSTRACT FROM AUTHOR]

Published

2024

2. The heat shock factor 20-HSF4-cellulose synthase A2 module regulates heat stress tolerance in maize.

Author

Li, Ze, Li, Zerui, Ji, Yulong, Wang, Chunyu, Wang, Shufang, Shi, Yiting, Le, Jie, and Zhang, Mei

Subjects

*HEAT shock factors, *TRANSCRIPTION factors, *PHYTOGEOGRAPHY, *CELLULOSE synthase, *GENETIC transcription

Abstract

Temperature shapes the geographical distribution and behavior of plants. Understanding the regulatory mechanisms underlying the plant heat stress response is important for developing climate-resilient crops, including maize (Zea mays). To identify transcription factors (TFs) that may contribute to the maize heat stress response, we generated a dataset of short- and long-term transcriptome changes following a heat treatment time course in the inbred line B73. Co-expression network analysis highlighted several TFs, including the class B2a heat shock factor (HSF) ZmHSF20. Zmhsf20 mutant seedlings exhibited enhanced tolerance to heat stress. Furthermore, DNA affinity purification sequencing and Cleavage Under Targets and Tagmentation assays demonstrated that ZmHSF20 binds to the promoters of Cellulose synthase A2 (ZmCesA2) and three class A Hsf genes, including ZmHsf4, repressing their transcription. We showed that ZmCesA2 and ZmHSF4 promote the heat stress response, with ZmHSF4 directly activating ZmCesA2 transcription. In agreement with the transcriptome analysis, ZmHSF20 inhibited cellulose accumulation and repressed the expression of cell wall-related genes. Importantly, the Zmhsf20 Zmhsf4 double mutant exhibited decreased thermotolerance, placing ZmHsf4 downstream of ZmHsf20. We proposed an expanded model of the heat stress response in maize, whereby ZmHSF20 lowers seedling heat tolerance by repressing ZmHsf4 and ZmCesA2, thus balancing seedling growth and defense. The transcription factor ZmHSF20 acts upstream of ZmHsf4 and Cellulose synthase A2, which positively regulate cell wall development under heat stress, thereby improving maize heat tolerance. [ABSTRACT FROM AUTHOR]

Published

2024

3. Bilirubin Distribution in Plants at the Subcellular and Tissue Levels.

Author

Ishikawa, Kazuya and Kodama, Yutaka

Subjects

*PLANT cells & tissues, *BILIRUBIN, *PHYTOGEOGRAPHY, *BIOLOGICAL transport, *CHLOROPLASTS, *NICOTIANA benthamiana, *ORGANELLES, *CHLOROPLAST membranes

Abstract

In heterotrophs, heme degradation produces bilirubin, a tetrapyrrole compound that has antioxidant activity. In plants, heme is degraded in plastids and is believed to be converted to phytochromobilin rather than bilirubin. Recently, we used the bilirubin-inducible fluorescent protein UnaG to reveal that plants produce bilirubin via a non-enzymatic reaction with NADPH. In the present study, we used an UnaG-based live imaging system to visualize bilirubin accumulation in Arabidopsis thaliana and Nicotiana benthamiana at the organelle and tissue levels. In chloroplasts, bilirubin preferentially accumulated in the stroma, and the stromal bilirubin level increased upon dark treatment. Investigation of intracellular bilirubin distribution in leaves and roots showed that it accumulated mostly in plastids, with low levels detected in the cytosol and other organelles, such as peroxisomes, mitochondria and the endoplasmic reticulum. A treatment that increased bilirubin production in chloroplasts decreased the bilirubin level in peroxisomes, implying that a bilirubin precursor is transported between the two organelles. At the cell and tissue levels, bilirubin showed substantial accumulation in the root elongation region but little or none in the root cap and guard cells. Intermediate bilirubin accumulation was observed in other shoot and root tissues, with lower levels in shoot tissues. Our data revealed the distribution of bilirubin in plants, which has implications for the transport and physiological function of tetrapyrroles. [ABSTRACT FROM AUTHOR]

Published

2024

4. Patterns of Grewia (Malvaceae) diversity across geographical scales in Africa and Madagascar.

Author

Karimi, Nisa and Hanes, Margaret M

Subjects

*SPECIES diversity, *MALVACEAE, *NUMBERS of species, *GRID cells, *PHYTOGEOGRAPHY, *BOTANICAL specimens, *BIOLOGICAL specimens

Abstract

Background and Aims Quantifying spatial species richness is useful to describe biodiversity patterns across broad geographical areas, especially in large, poorly known plant groups. We explore patterns and predictors of species richness across Africa in one such group, the palaeotropical genus Grewia L. (Malvaceae). Methods Grewia species richness was quantified by extracting herbarium records from GBIF and Tropicos and creating geographical grids at varying spatial scales. We assessed predictors of species richness using spatial regression models with 30 environmental variables. We explored species co-occurrence in Madagascar at finer resolutions using Schoener's index and compared species range sizes and International Union for Conservation of Nature status among ecoregions. Lastly, we derived a trait matrix for a subset of species found in Madagascar to characterize morphological diversity across space. Key Results Grewia species occur in 50 countries in Africa, with the highest number of species in Madagascar (93, with 80 species endemic). Species richness is highest in Madagascar, with ≤23 Grewia species in a grid cell, followed by coastal Tanzania/Kenya (≤13 species) and northern South Africa and central Angola (11 species each). Across Africa, higher species richness was predicted by variables related to aridity. In Madagascar, a greater range in environmental variables best predicted species richness, consistent with geographical grid cells of highest species richness occurring near biome/ecoregion transitions. In Madagascar, we also observe increasing dissimilarity in species composition with increasing geographical distance. Conclusions The spatial patterns and underlying environmental predictors that we uncover in Grewia represent an important step in our understanding of plant distribution and diversity patterns across Africa. Madagascar boasts nearly twice the Grewia species richness of the second most species-rich country in Africa, which might be explained by complex topography and environmental conditions across small spatial scales. [ABSTRACT FROM AUTHOR]

Published

2024

5. Integrating rapid assessment, variable probability sampling, and machine learning to improve accuracy and consistency in mapping local spatial distribution of plant species richness.

Author

Perng, Bo-Hao, Lam, Tzeng Yih, Su, Sheng-Hsin, Sabri, Mohamad Danial Bin Md, Burslem, David, Cardenas, Dairon, Duque, Álvaro, Ediriweera, Sisira, Gunatilleke, Nimal, Novotny, Vojtech, O'Brien, Michael J, and Reynolds, Glen

Subjects

SPECIES diversity, SPECIES distribution, PHYTOGEOGRAPHY, PLANT species, MACHINE learning, CENSUS

Abstract

Conserving plant diversity is integral to sustainable forest management. This study aims at diversifying tools to map spatial distribution of species richness. We develop a sampling strategy of using rapid assessments by local communities to gather prior information on species richness distribution to drive census cell selection by sampling with covariate designs. An artificial neural network model is built to predict the spatial patterns. Accuracy and consistency of rapid assessment factors, sample selection methods, and sampling intensity of census cells were tested in a simulation study with seven 25–50-ha census plots in the tropics and subtropics. Results showed that identifying more plant individuals in a rapid assessment improved accuracy and consistency, while transect was comparable to or slightly better than nearest-neighbor assessment, but knowing more species had little effects. Results of sampling with covariate designs depended on covariates. The covariate I freq, inverse of the frequency of the rapidly assessed species richness strata, was the best choice. List sampling and local pivotal method with I freq increased accuracy by 0.7%–1.6% and consistency by 7.6%–12.0% for 5% to 20% sampling intensity. This study recommends a rapid assessment method of selecting 20 individuals at every 20-m interval along a transect. Knowing at least half of the species in a forest that are abundant is sufficient. Local pivotal method is recommended at 5% sampling intensity or less. This study presents a methodology to directly involve local communities in probability-based forest resource assessment to support decision-making in forest management. [ABSTRACT FROM AUTHOR]

Published

2024

6. Evolution of cold tolerance in the highly stress-tolerant samphires and relatives (Salicornieae: Amaranthaceae).

Author

Cousins-Westerberg, Ruben, Dakin, Nicole, Schat, Laura, Kadereit, Gudrun, and Humphreys, Aelys M

Subjects

*AMARANTHACEAE, *PHYSIOLOGY, *FLOWERING of plants, *PHYTOGEOGRAPHY, *LOW temperatures

Abstract

Low temperature constitutes one of the main barriers to plant distributions, confining many clades to their ancestrally tropical biome. However, recent evidence suggests that transitions from tropical to temperate biomes may be more frequent than previously thought. Here, we study the evolution of cold and frost tolerance in the globally distributed and highly stress-tolerant Salicornieae (Salicornioideae, Amaranthaceae s.l.). We first generate a phylogenetic tree comprising almost all known species (85-90%), using newly generated (n  = 106) and published nuclear-ribosomal and plastid sequences. Next, we use geographical occurrence data to document in which clades and geographical regions cold-tolerant species occur and reconstruct how cold tolerance evolved. Finally, we test for correlated evolution between frost tolerance and the annual life form. We find that frost tolerance has evolved independently in up to four Northern Hemisphere lineages but that annuals are no more likely to evolve frost tolerance than perennials, indicating the presence of different strategies for adapting to cold environments. Our findings add to mounting evidence for multiple independent out-of-the-tropics transitions among close relatives of flowering plants and raise new questions about the ecological and physiological mechanism(s) of adaptation to low temperatures in Salicornieae. [ABSTRACT FROM AUTHOR]

Published

2023

7. Horticulture could facilitate invasive plant range infilling and range expansion with climate change.

Author

Beaury, Evelyn M, Allen, Jenica M, Evans, Annette E, Fertakos, Matthew E, Pfadenhauer, William G, and Bradley, Bethany A

Subjects

*INVASIVE plants, *ORNAMENTAL plants, *HORTICULTURE, *PHYTOGEOGRAPHY, *INTRODUCED species, *GEOGRAPHY, *CLIMATE change

Abstract

Invasive plants are often sold as ornamental garden plants, but how often are species sold in the same locations as where they are invasive? To answer this question, we assessed the geography of ornamental plant sales in the United States in relation to existing invasions and potential invasion risk with climate change. Using a data set of 672 nurseries selling 89 invasive plants, we estimated the distance between nursery sales and invasive species' observed distributions. We also used species range maps to identify nursery sales within current potential invaded ranges, as well as within species' future potential ranges given climate change. Half of the species were sold by a nursery within 21 kilometers of an observed record of invasion. Under the current climate, horticulture could be seeding invasions for 73 of the 89 species studied, and horticulture could facilitate climate-driven range expansion of 25 of 89 species. Our results illustrate risks associated with horticultural introductions of invasive species, providing guidance for regulatory and educational interventions that reduce the spread of ongoing and future invasions. [ABSTRACT FROM AUTHOR]

Published

2023

8. Integration of chromatin accessibility and gene expression reveals new regulators of cold hardening to enhance freezing tolerance in Prunus mume.

Author

Li, Ping, Zheng, Tangchun, Li, Lulu, Liu, Weichao, Qiu, Like, Ahmad, Sagheer, Wang, Jia, Cheng, Tangren, and Zhang, Qixiang

Subjects

*GENE expression, *PHYSIOLOGICAL effects of cold temperatures, *PHYTOGEOGRAPHY, *MITOGEN-activated protein kinases, *DROUGHT tolerance, *PRUNUS, *ACCLIMATIZATION (Plants), *ORNAMENTAL plants, *CHROMATIN

Abstract

Low temperature is one of the most important abiotic factors limiting the growth, development and geographical distribution of plants. Prunus mume is an attractive woody ornamental plant that blooms in early spring in Beijing. However, the molecular mechanisms underlying cold hardening to enhance freezing tolerance in Prunus genus remains elusive. This study examined the dynamic physiological responses induced by cold hardening, and identified freezing-tolerance genes by RNA-seq and ATAC-seq analyses. Cold hardening elevated the content of soluble substances and enhanced freezing resistance in P. mume. Transcriptome analysis indicated that the candidate differentially expressed genes (DEGs) were those enriched in Ca2+ signalling, mitogen-activated protein kinase (MAPK) cascade, abscisic acid signalling, and inducer of CBF expression 1 (ICE)-C-repeat binding factor (CBF) signalling pathways. The openness of gene chromatin positively correlated with the expression level of these genes. Thirteen motifs were identified in the open chromatin regions in the treatment group subjected to freezing after cold hardening. The chromatin opening of transcription start site at the proximal –177 region of cold-shock protein CS120-like (PmCSL) was markedly increased, while the expression level of PmCSL was significantly up-regulated. Overexpression of PmCSL in Arabidopsis significantly improved the freezing tolerance of transgenic plants. These findings provide new insights into the regulatory mechanism of freezing tolerance to improve breeding of cold-hardy P. mume plants. [ABSTRACT FROM AUTHOR]

Published

2023

9. Cryptic speciation shapes the biogeographic history of a northern distributed moss.

Author

Escolástico-Ortiz, Dennis Alejandro, Hedenäs, Lars, Quandt, Dietmar, Harpke, Dörte, Larraín, Juan, Stech, Michael, and Villarreal A, Juan Carlos

Subjects

*GLACIAL Epoch, *SINGLE nucleotide polymorphisms, *MOSSES, *GENETIC variation, *ENVIRONMENTAL history, *SPECIES distribution

Abstract

Increasing evidence indicates that wide distributed bryophyte taxa with homogeneous morphology may represent separate evolutionary lineages. The evolutionary histories of these cryptic lineages may be related to historical factors, such as the climatic oscillations in the Quaternary. Thus, the post-glacial demographic signatures paired with cryptic speciation may result in complex phylogeographic patterns. This research has two aims: to determine whether the widespread moss Racomitrium lanuginosum represents cryptic molecular taxa across the Northern Hemisphere and to infer the effects of Quaternary glaciations on spatial genetic diversity. We used the internal transcribed spacer (ITS) marker to resolve the phylogeographic history of the species and single nucleotide polymorphisms (genotyping-by-sequencing) to infer the genetic structure and demographic history. Finally, we assessed the historical changes in the distribution range using species distribution models. Racomitrium lanuginosum comprises distinct molecular lineages sympatrically distributed in the Northern Hemisphere. We also uncovered long-distance dispersal from eastern North America to Scandinavia and potential in situ survival in northern Scandinavia. Due to the genetic signatures, the Alaska Peninsula could be considered a glacial refugium. The species experienced post-glacial expansion northwards in the Northern Hemisphere, mainly from the Alaska Peninsula. Our results exemplify the complex phylogeographic history in cold environments and contribute to recognizing evolutionary patterns in the Northern Hemisphere. [ABSTRACT FROM AUTHOR]

Published

2023

10. Solar-induced chlorophyll fluorescence imperfectly tracks the temperature response of photosynthesis in winter wheat.

Author

Chen, Ruonan, Liu, Xinjie, Chen, Jidai, Du, Shanshan, and Liu, Liangyun

Subjects

*CHLOROPHYLL spectra, *WINTER wheat, *WHEAT, *LOW temperatures, *PHOTOSYNTHESIS, *TEMPERATURE, *PHYTOGEOGRAPHY

Abstract

Solar-induced fluorescence (SIF) is a promising proxy for photosynthesis, but it is unclear whether it performs well in tracking the gross primary productivity (GPP) under different environmental conditions. In this study, we investigated the dynamics of the two parameters from October 2020 to June 2021 in field-grown winter wheat (Triticum aestivum) and found that the ability of SIF to track GPP was weakened at low temperatures. Accounting for the coupling of light and temperature at a seasonal scale, we found that SIF yield showed a lower temperature sensitivity and had a lower but broader optimal temperature range compared with light-use efficiency (LUE), although both SIF yield and LUE decreased in low-temperature conditions. The discrepancy between the temperature responses of SIF yield and GPP caused an increase in the ratio of SIF/GPP in winter, which indicated the variation in the relationship between them during this period. The results of our study highlight the impact of low temperature on the relationship between SIF and GPP and show the necessity of reconsidering the dynamics of energy distribution inside plants under changing environments. [ABSTRACT FROM AUTHOR]

Published

2022

11. Spatial patterns of a savanna palm tree Borassus aethiopum and its temporal variability.

Author

Traoré, Amara Sidiki, Kouassi, Kouadio Ignace, Koné, Moussa, Gignoux, Jacques, and Barot, Sébastien

Subjects

SAVANNAS, PLANT communities, PALMS, PLANT species, PHYTOGEOGRAPHY, RURAL geography

Abstract

The spatial distributions and associations of plant species in a stand can provide essential information about their dynamics. However, since tree spatial distribution and association depend on factors that operate at different scales, disentangling the effects of environmental heterogeneity and plant–plant interactions requires the choice of a suitable null model for spatial analysis. We analyzed the spatial distributions of the same savanna palm tree populations that were studied, the underlying hypothesis being that these distributions have changed in 20 years. To remove the effect of large-scale environmental heterogeneity, the inhomogeneous L -function under the heterogeneous Poisson null model was used. We showed: (i) unlike 20 years ago, adults had a regular distribution instead of an aggregated distribution in the grass savanna; (ii) although the spatial distribution of seedlings and juveniles was always aggregated, we observed a decrease in the size of the aggregates (intensities); (iii) except for juveniles, no other stages were associated with nutrient-rich patches, which was also different 20 years ago; (iv) we did not observe any particular difference in structure between two study sites, only that female palm trees were spatially associated with entire-leafed seedlings in the reserve while they were spatially independent in the rural area. Our study supports the hypothesis that the spatial distributions have partially changed, and that the management of spatial heterogeneity has improved and given more precision in the results. [ABSTRACT FROM AUTHOR]

Published

2022

12. UPTAKE AND DISTRIBUTION OF RADIOSTRONTIUM IN TOMATO TREATED WITH ARBUSCULAR MYCORRHIZAL FUNGI.

Author

Dulanská, Silvia, Gomola, Igor, Gubišová, Marcela, Ondreičková, Katarína, Pánik, Ján, Mátel, Ľubomír, and Horník, Miroslav

Subjects

VESICULAR-arbuscular mycorrhizas, TOMATOES, PLANT inoculation, EDIBLE plants, PHYTOGEOGRAPHY, STRONTIUM

Abstract

Arbuscular mycorrhizal fungi (AMF) were inoculated into the root system of edible tomato plants to investigate their effect on the uptake and distribution of strontium radionuclide in the tissues of plants grown under laboratory conditions. The experiments were carried out in a sterile mixture of topsoil and sand, where in one series of experiments contaminated soil with 85Sr was used. Seeds were inoculated with a mixture of AMF at sowing, the second, control series was without application of AMF. Determination of radioactivity in soil and in different parts of tomato plants was carried out by gamma-spectrometric measurement. The obtained results and statistical analysis indicated a significant association between AMF inoculation of plants and the change in the distribution of 85Sr. The presence of AMF reduced the translocation of 85Sr from the root system to the aerial parts of tomato plants. [ABSTRACT FROM AUTHOR]

Published

2022

13. Systems approaches reveal that ABCB and PIN proteins mediate co-dependent auxin efflux.

Author

Mellor, Nathan L., Voß, Ute, Ware, Alexander, Janes, George, Barrack, Duncan, Bishopp, Anthony, Bennett, Malcolm J., Geisler, Markus, Wells, Darren M., and Band, Leah R.

Subjects

*AUXIN, *PROTEIN transport, *CARRIER proteins, *PERSONAL identification numbers, *PHYTOGEOGRAPHY, *ARABIDOPSIS thaliana

Abstract

Members of the B family of membrane-bound ATP-binding cassette (ABC) transporters represent key components of the auxin efflux machinery in plants. Over the last two decades, experimental studies have shown that modifying ATPbinding cassette sub-family B (ABCB) expression affects auxin distribution and plant phenotypes. However, precisely how ABCB proteins transport auxin in conjunction with the more widely studied family of PIN-formed (PIN) auxin efflux transporters is unclear, and studies using heterologous systems have produced conflicting results. Here, we integrate ABCB localization data into a multicellular model of auxin transport in the Arabidopsis thaliana root tip to predict how ABCB-mediated auxin transport impacts organ-scale auxin distribution. We use our model to test five potential ABCB-PIN regulatory interactions, simulating the auxin dynamics for each interaction and quantitatively comparing the predictions with experimental images of the DII-VENUS auxin reporter in wild-type and abcb single and double loss-offunction mutants. Only specific ABCB-PIN regulatory interactions result in predictions that recreate the experimentally observed DII-VENUS distributions and long-distance auxin transport. Our results suggest that ABCBs enable auxin efflux independently of PINs; however, PIN-mediated auxin efflux is predominantly through a co-dependent efflux where colocalized with ABCBs. [ABSTRACT FROM AUTHOR]

Published

2022

14. Interactions between invasive plants and heavy metal stresses: a review.

Author

Li, Jian, Leng, Zhanrui, Wu, Yueming, Du, Yizhou, Dai, Zhicong, Biswas, Asim, Zheng, Xiaojun, Li, Guanlin, Mahmoud, Esawy Kasem, Jia, Hui, and Du, Daolin

Subjects

INVASIVE plants, PLANT invasions, NATIVE plants, INTRODUCED species, PLANT communities, PHYTOGEOGRAPHY

Abstract

Global changes have altered the distribution pattern of the plant communities, including invasive species. Anthropogenic contamination may reduce native plant resistance to the invasive species. Thus, the focus of the current review is on the contaminant biogeochemical behavior among native plants, invasive species and the soil within the plant–soil ecosystem to improve our understanding of the interactions between invasive plants and environmental stressors. Our studies together with synthesis of the literature showed that (i) the impacts of invasive species on environmental stress were heterogeneous, (ii) the size of the impact was variable and (iii) the influence types were multidirectional even within the same impact type. However, invasive plants showed self-protective mechanisms when exposed to heavy metals (HMs) and provided either positive or negative influence on the bioavailability and toxicity of HMs. On the other hand, HMs may favor plant invasion due to the widespread higher tolerance of invasive plants to HMs together with the 'escape behavior' of native plants when exposed to toxic HM pollution. However, there has been no consensus on whether elemental compositions of invasive plants are different from the natives in the polluted regions. A quantitative research comparing plant, litter and soil contaminant contents between native plants and the invaders in a global context is an indispensable research focus in the future. [ABSTRACT FROM AUTHOR]

Published

2022

15. Identification of ZmNF-YC2 and its regulatory network for maize flowering time.

Author

Su, Huihui, Chen, Zhihui, Dong, Yahui, Ku, Lixia, Abou-Elwafa, Salah Fatouh, Ren, Zhenzhen, Cao, Yingying, Dou, Dandan, Liu, Zhixue, Liu, Huafeng, Tian, Lei, Zhang, Dongling, Zeng, Haixia, Han, Shengbo, Zhu, Fangfang, Du, Chunguang, and Chen, Yanhui

Subjects

*FLOWERING time, *REGULATOR genes, *PLANT adaptation, *TRANSCRIPTION factors, *PHYTOGEOGRAPHY, *CORN

Abstract

Flowering time is an important agronomic trait that determines the distribution and adaptation of plants. The accurate prediction of flowering time in elite germplasm is critical for maize breeding. However, the molecular mechanisms underlying the photoperiod response remain elusive in maize. Here we cloned the flowering time-controlling gene, ZmNF-YC2 , by map-based cloning and confirmed that ZmNF-YC2 is the nuclear transcription factor Y subunit C-2 protein and a positive regulator of flowering time in maize under long-day conditions. Our results show that ZmNF-YC2 promotes the expression of ZmNF-YA3. ZmNF-YA3 negatively regulates the transcription of ZmAP2. ZmAP2 suppresses the expression of ZMM4 to delay flowering time. We then developed a gene regulatory model of flowering time in maize using ZmNF-YC2 , ZmNF-YA3 , ZmAP2 , ZMM4 , and other key genes. The cascading regulation by ZmNF-YC2 of maize flowering time has not been reported in other species. [ABSTRACT FROM AUTHOR]

Published

2021

16. Drought adaptability of phreatophytes: insight from vertical root distribution in drylands of China.

Author

Wang, Tian-Ye, Wang, Ping, Wang, Ze-Lin, Niu, Guo-Yue, Yu, Jing-Jie, Ma, Ning, Wu, Ze-Ning, Pozdniakov, Sergey P, and Yan, Deng-Hua

Subjects

ARID regions, PLANT adaptation, ECOLOGICAL resilience, VEGETATION dynamics, PHYTOGEOGRAPHY

Abstract

Aims The vertical distribution of plant roots is a comprehensive result of plant adaptation to the environment. Limited knowledge on fine vertical root distributions and complex interactions between roots and environmental variables hinders our ability to reliably predict climatic impacts on vegetation dynamics. This study attempts to understand the drought adaptability of plants in arid areas from the perspective of the relationship between vertical root distribution and surroundings. Methods By analyzing root profiles compiled from published studies, the root vertical profiles of two typical phreatophytes, Tamarix ramosissima and Populus euphratica , and their relationships with environmental factors were investigated. A conceptual model was adopted to link the parameter distribution frequency with plant drought adaptability. Important Findings The strong hydrotropism (groundwater-dependent) and flexible water-use strategy of T. ramosissima and P. euphratica help both species survive in hyperarid climates. The differences in the developmental environments between T. ramosissima and P. euphratica can be explained well by the different distribution characteristics of root profiles. That is, higher root plasticity helps T. ramosissima develop a more efficient water-use strategy and therefore survive in more diverse climatic and soil conditions than P. euphratica. We conclude that the higher variation in root profile characteristics of phreatophytes can have greater root adaptability to the surroundings and thus wider hydrological niches and stronger ecological resilience. The inadequacy of models in describing root plasticity limits the accuracy of predicting the future response of vegetation to climate change, which calls for developing process-based dynamic root schemes in Earth system models. [ABSTRACT FROM AUTHOR]

Published

2021