The nitrogen supply from soils and insects during growth of the pitcher plants Nepenthes mirabilis, Cephalotus follicularis and Darlingtonia california
MetadataShow full item record
Gillison, A.N., Schulze, W., Schulze, E.D., Pate, J.S. 1997. The nitrogen supply from soils and insects during growth of the pitcher plants Nepenthes mirabilis, Cephalotus follicularis and Darlingtonia california . Oecologia 112 :464-471.
Permanent link to cite or share this item: http://hdl.handle.net/10568/17685
External link to download this item: http://www.cifor.org/nc/online-library/browse/view-publication/publication/14.html
This study investigated the nitrogen (N) acquisition from soil and insect capture during the growth of three species of pitcher plants, Nepenthes mirabilis, Cephalotus follicularis dan Darlingtonia californica. 15N/14/N natural abundance ratios (d15N) of plants and pitchers of different age, non-carnivolrous reference plants, and insect prey were used to estimate proportional contributions of insects to the N content of leaves and whole plants. Young Nepenthes leaves (phyllodes) carrying closed pitchers comprised major sinks for N and developed mainly from insect N captured elsewhere on the plant. Their d15N values of up to 7.2‰ were higher than the average d15N value of captured insects (mean d15N value=5.3‰). In leaves carrying old pitchers that are acting as a N source, the d15N decreased to 3.0‰ indicating either an increasing contribution of soil N to those plant parts which in fact captured the insects or N gain from N2 fixation by microorganisms which may exist in old pitchers. The d15N value of N in water collected from old pitchers was 1.2‰ and contained free amino acids. The fraction of insect N in young and old pitchers and their associated leaves decreased from 1.0 to 0.3 mg g-1. This fraction of insect decreased further with the size of the investigated tiller. Nepenthes contained on average 61.5 + 7.6% (mean + SD, range 50-71%) insect N based on the N content of a whole tiller. In the absence of suitable non-carnivorous reference plants for Cephalotus, d15N values were assessed across a developmental sequence from young plants lacking pitchers to large adults with up to 38 pitchers. The data indicated dependence on soil N until 4 pitchers had opened. Beyond that stage plant size increased with the number of catching pitchers but the fraction of soil N remained high. Large Cephalotus plants were estimated to derive 26 + 5.9% (mean + SD of the three largest plants; range: 19-30%) of the N form insects. In Cephalotus we observed an increased d15N value in sink versus source pitchers of about 1.2‰ on average. Source and sink pitchers of Darlingtonia had a similar d15N value, but plant N in this species showed d15N signals closer to that of insect contributed 76.4 + 8.4% (range 57-90%) to total pitcher N content. The data suggest complex patterns of partitioning of insect and soil-derived N between source and sink regions in pitcher plants and possibly higher dependence on insect N than recorded elsewhere for Drosera species
- CIFOR Archive