Phosphorus toxicity, not deficiency, explains the calcifuge habit of phosphorus‐efficient Proteaceae

Pereira, Caio Guilherme; Hayes, Patrick E.; Clode, Peta L.; Lambers, Hans

doi:10.1111/ppl.13384

Cited by 5 publications

(1 citation statement)

References 59 publications

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“…The low affinity of inorganic P transport is halved due to the high inorganic P availability, increasing P toxicity in response to increased P tissue concentration, due to an inability to downregulate P uptake, even in concentrations well below those observed for other species [ 93 , 101 , 109 , 110 ]. Shane et al and Shane et al described an increasing P toxicity with increasing Ca supply due to leaf P displacement into mesophyll cells [ 111 , 112 ], increasing tissue P concentrations [ 113 ].…”

Section: Discussionmentioning

confidence: 99%

Invasiveness, Monitoring and Control of Hakea sericea: A Systematic Review

Jacobson

Gerber

Azevedo

2023

Plants

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Solutions for ecological and economic problems posed by Hakea sericea invasions rely on scientific knowledge. We conducted a systematic review to analyze and synthesize the past and current scientific knowledge concerning H. sericea invasion processes and mechanisms, as well as monitoring and control techniques. We used ISI Web of Science, Scopus, and CAPES Periodicals to look for publications on the ecological and environmental factors involved in H. sericea establishment (question 1); responses of H. sericea to fire in native and invaded ecosystems (question 2); and H. sericea monitoring and control methods (question 3). We identified 207 publications, 47.4% of which related to question 1, mainly from Australia and South Africa, with an increasing trend in the number of publications on monitoring and modeling. The traits identified in our systematic review, such as adaptations to dystrophic environments, drought resistance, sclerophylly, low transpiration rates, high nutrient use efficiency, stomatal conductance and photosynthetic rates, strong serotiny, proteoid roots and high post-fire seed survival and seedling recruitment, highlighted that H. sericea is a successful invader species due to its long adaptive history mediated by an arsenal of ecophysiological mechanisms that place it at a superior competitive level, especially in fire-prone ecosystems. Integrated cost-effective control methods in selected areas and the incorporation of information on the temporal invasion dynamics can significantly improve invasion control and mitigate H. sericea impacts while maintaining the supply of ecosystem services in invaded areas.

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Section: Discussionmentioning

confidence: 99%

Invasiveness, Monitoring and Control of Hakea sericea: A Systematic Review

Jacobson

Gerber

Azevedo

2023

Plants

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Soil properties and geomorphic processes influence vegetation composition, structure, and function in the Cerrado Domain

et al. 2022

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Calcifuge and soil-indifferent Proteaceae from south-western Australia: novel strategies in a calcareous habitat

Hayes,

Clode,

Lambers

2023

Plant Soil

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Background and aims Proteaceae are a prominent plant family in south-western Australia. Most Proteaceae are ‘calcifuge’, occurring exclusively on old phosphorus (P)-impoverished acidic soils, with a few ‘soil-indifferent’ species also found on young P-richer calcareous soils. Calcium (Ca)-enhanced P toxicity explains the calcifuge habit of Proteaceae. However, previous research has so far been focused exclusively on the roles of Ca and P in determining Proteaceae distribution, and consequently there is little knowledge on how other soil-based strategies influence this distribution. We aimed to study the effects of young calcareous soils on four soil-grown Proteaceae and assess differences between calcifuge and soil-indifferent Proteaceae to better understand their natural distribution. Methods Two calcifuge and two soil-indifferent Proteaceae from south-western Australia were grown in six contrasting soils, including young calcareous, and old acidic soils. Results When grown in calcareous soils all species showed root growth inhibition, micronutrient deficiency, Ca-enhanced P toxicity, and negative impacts on physiology. Calcifuge species were more sensitive to calcareous soils than soil-indifferent ones, although this varied between genera. Soil-indifferent species tended to produce more cluster roots, release more carboxylates per root mass, and allocate less Ca to their leaves, compared with calcifuges; they also had smaller seeds and were less sensitive to Ca-enhanced P toxicity. Conclusion We surmise that a combination of these traits allows soil-indifferent species to tolerate calcareous soils. This study provides insight into how Proteaceae respond to young calcareous soils and how this influences their distribution.

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Phosphorus toxicity, not deficiency, explains the calcifuge habit of phosphorus‐efficient Proteaceae

Cited by 5 publications

References 59 publications

Invasiveness, Monitoring and Control of Hakea sericea: A Systematic Review

Invasiveness, Monitoring and Control of Hakea sericea: A Systematic Review

Soil properties and geomorphic processes influence vegetation composition, structure, and function in the Cerrado Domain

Calcifuge and soil-indifferent Proteaceae from south-western Australia: novel strategies in a calcareous habitat

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