Data from: To recycle or steal? Nutrient resorption in Australian and Brazilian mistletoes from three low-phosphorus sites
dataset
posted on 2022-06-10, 02:51authored byMarina Corrêa Scalon, Ian J. Wright, Augusto Cesar Franco
Resorption is the process by which nutrients are withdrawn from leaves prior to leaf fall. Mistletoes are generally thought not to rely on nutrient resorption; being xylem-tapping parasites, they instead derive the nutrients required for new growth from their host plant, at little or no cost. We measured nutrient (N, P, K, Ca, Mg) resorption in 18 parasitic mistletoe–host species pairs distributed across three sites with notably low-P soil, also quantifying relationships with leaf lifespan (LL) and specific leaf area (SLA). There was little or no evidence of N, Ca or Mg resorption. By contrast, on average ∼30% of P and ∼20% of K were resorbed prior to leaf fall. Longer LL in mistletoes was associated with lower N and P concentrations in mistletoes and in host leaves. We provide evidence that, even though mistletoes are relatively inefficient in terms of nutrient resorption compared to non-parasite species, on low-P soils their ecological and evolutionary strategies for conserving phosphorous involve modulation of both leaf lifespan and P concentration in senesced leaves.
Usage Notes
Data_Scalon et al. OikosValues of specific leaf area (SLA), and leaf nitrogen, phosphorus, potassium, magnesium and calcium concentrations for mistletoes and host species. Green leaf nutrient concentration are shown for mistletoes ([Nut]_green) and hosts ([Nut]_host). Senescent leaf nutrient concentration are shown for mistletoes only ([Nut]_old).