Arid community responses to nitrogen and carbon addition depend on dominant species traits and are decoupled between above‐ and below‐ground biomass

Campana, Sofía; Reyes, María Fernanda; Aguiar, Martı́n R.

doi:10.1111/jvs.13153

Cited by 3 publications

(2 citation statements)

References 64 publications

(125 reference statements)

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“…Several studies have shown that these soil changes are detrimental to plant germination, growth and survival and have been proposed as some of the potential mechanisms explaining biodiversity loss in response to N enrichment (Bai et al, 2010; Liu et al, 2019; Y. Zhang et al, 2014). Some responses of grasses found in our study contradict those found by Campana et al (2022). These authors observed that P. ligularis responded positively to nitrogen addition increasing its biomass, while P. humilis was not affected and showed a tendency to decrease aboveground biomass.…”

Section: Discussioncontrasting

confidence: 94%

Nitrogen rather than water availability limits aboveground primary productivity in an arid ecosystem: Substantial differences between grasses and shrubs

Carbonell‐Silletta,

Scholz,

Burek

et al. 2024

Ecohydrology

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Changes in water and nitrogen availability can affect the structure and function of arid ecosystems. How these resources affect aboveground primary productivity (ANPP) remains far from clear. We examined the N and water limitation of ANPP from the species to the community level and the response of ANPP to annual precipitation in a Patagonian steppe. We conducted a 7‐year field experiment with water addition (+W), nitrogen addition (+N) and +NW. Destructive methods for grasses and allometric relationships for shrubs were used to assess ANPP and vegetation indices (NDVI and MSAVI2) to estimate community ANPP. An increase in ANPP of one grass species (Papposstipa humilis) and a decrease of the grass Poa ligularis under +N were observed. Some shrub species exhibited mortality under nitrogen addition. Nitrogen exerted a positive effect on grass ANPP and amplified the sensitivity of grass ANPP to annual precipitation. However, +N had not effects on the shrub ANPP and shrub ANPP‐precipitation relationship. Water addition by itself had no effect on ANPP for either shrubs or grasses. However, shrubs responded positively to an unusually wet year regardless of treatment and were also more sensitive to changes in annual precipitation than grasses. Total ANPP increased significantly in +N relative to the C and +W but without changes in the sensitivity to annual precipitation. The results suggest that the responses of grasses and shrubs to water inputs are driven by soil moisture redistribution and rooting depth and that grass and community ANPP are more limited by N than by water.

show abstract

Section: Discussioncontrasting

confidence: 94%

Nitrogen rather than water availability limits aboveground primary productivity in an arid ecosystem: Substantial differences between grasses and shrubs

Carbonell‐Silletta,

Scholz,

Burek

et al. 2024

Ecohydrology

View full text Add to dashboard Cite

show abstract

“…Zhang et al, 2014). Some responses of grasses found in our study contradict those found by Campana et al (2022). These authors observed that P. ligularis responded positively to nitrogen addition increasing its biomass, while P. humilis was not affected and showed a tendency to decrease aboveground biomass.…”

Section: Response Of Plant Species To Water and Nitrogen Addition: Pl...contrasting

confidence: 95%

Nitrogen rather than water availability limits aboveground primary productivity in an arid ecosystem: substantial differences between grasses and shrubs

Bucci,

Silletta,

Scholz

et al. 2023

Preprint

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Changes in water and nitrogen availability can affect the structure and function of arid ecosystems. How these resources affect aboveground primary productivity (ANPP) remains far from clear. We examined the N and water limitation of ANPP from the species to the community level and the response of ANPP to annual precipitation in a Patagonian steppe. We conducted a 7-year field experiment with water addition (+W), nitrogen addition (+N), and +NW. Destructive methods for grasses and allometric relationships for shrubs were used to assess ANPP and vegetation indices (NDVI and MSAVI2) to estimate community ANPP. An increase in ANPP of one grass species ( Papposstipa humilis) and a decrease of the grass Poa ligularis under +N were observed. Some shrubs species exhibited mortality under nitrogen addition. Nitrogen exerted a positive effect on grass ANPP and amplified the sensitivity of grass ANPP to annual precipitation. However, +N had not effects on the shrub ANPP and shrub ANPP-precipitation relationship. Water addition by itself had no effect on ANPP for either shrubs or grasses. However, shrubs responded positively to an unusually wet year regardless of treatment and were also more sensitive to changes in annual precipitation than grasses. Total ANPP increased significantly in +N relative to the C and +W, but without changes in the sensitivity to annual precipitation. The results suggest that the responses of grasses and shrubs to water inputs is driven by soil moisture redistribution and rooting depth and that grass and community ANPP is more limited by N than by water.

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Changes in soil respiration after eight years of warming and increased precipitation in a semiarid temperate steppe

Yu,

Ganjurjav,

Wan

et al. 2024

Agriculture, Ecosystems & Environment

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Arid community responses to nitrogen and carbon addition depend on dominant species traits and are decoupled between above‐ and below‐ground biomass

Cited by 3 publications

References 64 publications

Nitrogen rather than water availability limits aboveground primary productivity in an arid ecosystem: Substantial differences between grasses and shrubs

Nitrogen rather than water availability limits aboveground primary productivity in an arid ecosystem: Substantial differences between grasses and shrubs

Nitrogen rather than water availability limits aboveground primary productivity in an arid ecosystem: substantial differences between grasses and shrubs

Changes in soil respiration after eight years of warming and increased precipitation in a semiarid temperate steppe

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