Gypsum-exclusive plants accumulate more leaf S than non-exclusive species both in and off gypsum

Cera, Andreu; Montserrat-Martı́, Gabriel; Ferrio, Juan Pedro; Drenovsky, Rebecca E.; Palacio, Sara

doi:10.1016/j.envexpbot.2020.104294

Cited by 18 publications

(20 citation statements)

References 40 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Recent research suggests that knowledge of plant ionome is a key aspect to globally understand the ecosystems of the Earth [ 77 , 78 ]. Much of the research has been focused on this aspect in serpentine plants (e.g., [ 79 , 80 ]) and gypsum (e.g., [ 72 , 81 ]). Attention has been focused on several elements, often considered key, and on their ratios.…”

Section: Dolomitophily and Other Ca:mg Edaphismsmentioning

confidence: 99%

Plants on Rich-Magnesium Dolomite Barrens: A Global Phenomenon

Poveda

Merlo

Martínez-Hernández

et al. 2021

Biology

View full text Add to dashboard Cite

For botanists and ecologists, the close link between some plants and substrates, such as serpentine or gypsum, is well known. However, the relationship between dolomite and its flora has been much less studied, due to various causes. Its diffuse separation from limestone and the use of a vague approach and terminology that, until now, no one has tried to harmonize are among these reasons. After carrying out an extensive review, completed with data on the distribution of plants linked to dolomite, the territories in which this type of flora appears at a global level were mapped using a geographic information system software. In addition, data on soils were collected, as well as on their influence on the ionomic profile of the flora. These data were completed with the authors’ own information from previous research, which also served to assess these communities’ degree of conservation and the genetic diversity of some of their characteristic species. The results showed that the so-called “dolomite phenomenon” is widely represented and is clearly manifested in the appearance of a peculiar flora, very rich in endemisms, on dry soils, poor in nutrients, and with a high Mg level. Although dolomite habitats cause adaptations in plants which are even more recognizable than those of other rock types, they have not been widely studied from an ecological, evolutionary, and conservation point of view because, so far, neither their characteristics nor their universal demarcation have been precisely defined.

show abstract

Section: Dolomitophily and Other Ca:mg Edaphismsmentioning

confidence: 99%

Plants on Rich-Magnesium Dolomite Barrens: A Global Phenomenon

Poveda

Merlo

Martínez-Hernández

et al. 2021

Biology

View full text Add to dashboard Cite

show abstract

“…these distantly related floras. This pattern could ultimately link to a nutritional specialization of gypsophiles to gypseous soils (Cera et al, 2020). Some gypsum endemic species have also been shown to have a higher ability than co-occurring gypsovags to surpass the hard physical crust typical of gypsum soils at the seedling stage (Romão and Escudero, 2005).…”

Section: Introductionmentioning

confidence: 99%

“…Previous studies have shown how widely distributed gypsophiles from Spain (Palacio et al, 2014, 2007) and the Chihuahuan Desert (Muller et al, 2017) frequently share an ability to accumulate S and Ca in their leaves, which points at a convergent evolution towards similar adaptive traits in plants from these distantly related floras. This pattern could ultimately link to a nutritional specialization of gypsophiles to gypseous soils (Cera et al, 2020). Some gypsum endemic species have also been shown to have a higher ability than co-occurring gypsovags to surpass the hard physical crust typical of gypsum soils at the seedling stage (Romão and Escudero, 2005).…”

Section: Introductionmentioning

confidence: 99%

Do soil features condition seed germination of gypsum plants? An analysis of the effect of different natural soils

Heiden

Cera

Palacio

2021

Preprint

Self Cite

View full text Add to dashboard Cite

Gypseous soils are widespread across arid and semiarid environments worldwide. They present remarkable challenges to plants and host a unique flora. We aimed to assess up to what point the specificity and distribution of species on gypsum might be driven by species-specific germination responses to soil gypsum availability. We analyzed the germination of six gypsum specialists and four closely related generalist plant species from the Iberian Peninsula and the Chihuahuan Desert in four different field soils with contrasting concentrations of gypsum, pH and soil texture. Plant restriction to gypsum was unrelated to the germinating ability of seeds on different substrates. Irrespective of their affinity for gypsum, most species germinated better on mixed gypsum-calcareous soil and worse in the acidic soil treatment. Our data suggest soil pH was the main soil feature driving seed germination, while the effect of gypsum content was generally not significant. The main exception was the Iberian gypsum specialist Helianthemum squamatum (L.) Dum. Cours., which showed increased germination on gypseous soils and higher germination in response to increased soil gypsum content. Except for this species, our findings indicate alkaline soils favor the germination of most of the species analyzed, irrespectively of their gypsum content.

show abstract

“…Gypsum specialist species differ from generalist species in their foliar S, Ca and Mg concentrations Merlo et al 2019), but not in their leaf P and N (Muller et al 2017;Sánchez-Martín et al 2021). In addition, plants growing on gypseous soils show low foliar P concentrations (Cera et al 2021). Previous studies analysed the differences in AMF colonisation between gypsum specialist and generalist species.…”

Section: Introductionmentioning

confidence: 99%

Seasonal variation in AMF colonisation, soil and plant nutrient content in gypsum specialist and generalist species growing in P-poor soils

et al. 2021

Self Cite

View full text Add to dashboard Cite

Aims Gypsum soils are P-limited atypical soils that harbour a rich endemic flora. These singular soils are usually found in drylands, where plant activity and soil nutrient availability are seasonal. No previous studies have analysed the seasonality of P nutrition and its interaction with the arbuscular mycorrhiza fungi (AMF) colonisation in gypsum plants. Our aim was to evaluate the seasonal changes in plant nutrient status, AMF colonisation and rhizospheric soil nutrient availability in gypsum specialist and generalist species. Methods We evaluated seasonal variation in the proportion of root length colonised by AMF structures (hyphae, vesicules and arbuscules), plant nutrient status (leaf C, N and P and fine root C and N) and rhizospheric soil content (P, organic matter, nitrate and ammonium) of three gypsum specialists and two generalists throughout a year. Results All species showed arbuscules within roots, including species of Caryophyllaceae and Brassicaceae. Root colonisation by arbuscules (AC) was higher in spring than in other seasons, when plants showed high leaf P-requirements. Higher AC was decoupled from inorganic N and P availability in rhizospheric soil, and foliar nutrient content. Generalists showed higher AC than specialists, but only in spring. Conclusions Seasonality was found in AMF colonisation, rhizospheric soil content and plant nutrient status. The mutualism between plants and AMF was highest in spring, when P-requirements are higher for plants, especially in generalists. However, AMF decoupled from plant demands in autumn, when nutrient availability increases in rhizospheric soil.

show abstract

Gypsum-exclusive plants accumulate more leaf S than non-exclusive species both in and off gypsum

Cited by 18 publications

References 40 publications

Plants on Rich-Magnesium Dolomite Barrens: A Global Phenomenon

Plants on Rich-Magnesium Dolomite Barrens: A Global Phenomenon

Do soil features condition seed germination of gypsum plants? An analysis of the effect of different natural soils

Seasonal variation in AMF colonisation, soil and plant nutrient content in gypsum specialist and generalist species growing in P-poor soils

Contact Info

Product

Resources

About