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Nutrient requirements differ in two Pedicularis species in the absence of a host plant: implication for driving forces in the evolution of host preference of root hemiparasitic plants

† Background and Aims:
Facultative root hemiparasitic plants generally have awide host range, but in most cases show an obvious host preference. The reasons for the marked difference in growth performance of hemiparasites when attached to different hosts are not fully understood. In this study, the hypothesis was tested that hemiparasites
showing a preference for different hosts have different nutrient requirements.

† Methods:
Two facultative root hemiparasiticPedicularis species (P. rex andP. tricolor) with a different host dependency and preference were used to test their responses to inorganic solutes. The effects of nitrogen, phosphorus and potassium on growth of the hemiparasitic plants not attached to a host were determined, using an orthogonal design in pot cultivation under greenhouse conditions. Variables including biomass, shoot nutrient concentration, root:shoot (R:S) ratios and the number of haustoria were measured.

† Key Results:
As in autotrophic plants, nutrient deficiency reduced dry weight (DW) and nutrient concentrations in the root hemiparasites. Nitrogen and phosphorus significantly influenced growth of both Pedicularis species, while
potassium availability influenced only shootDWof P. rex. Nitrogen had far more effect on growth of P. rex than on P. tricolor, while phosphorus deficiency caused more marked growth depression in P. tricolor than in P. rex. Pedicularis rex grew faster than P. tricolor in a range of nutrient supplies. Different patterns of biomass allocation between the two Pedicularis specieswere observed. While P. rex invested more into roots ( particularly fine rootlets) than P. tricolor, the number of haustoria produced by P. rex was relatively much lower than that produced by P. tricolor, which had a much smaller root system.

†Conclusions:
The two Pedicularis species differ in nutrient requirements and biomass allocation. Distinct interspecific
traits in growth and nutrient requirements can be driving forces for the differential interactions between hemiparasites and their hosts.

Key words: Inorganic solute, root hemiparasitic plant, Orobanchaceae, Pedicularis, pot cultivation, nitrogen,
phosphorus, potassium.

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Informasi Detail
Judul Seri
Annals of Botany
No. Panggil
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Penerbit
Oxford : Oxford University Press on behalf of the Annals of Botany Company.,
Deskripsi Fisik
Annals of Botany 112: 1099–1106, 2013
Bahasa
English
ISBN/ISSN
-
Klasifikasi
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Tipe Isi
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Tipe Media
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Tipe Pembawa
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Edisi
-
Subjek
EKOFISIOLOGI TANAMAN
Info Detail Spesifik
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Pernyataan Tanggungjawab
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