Abstract
Plant identification is challenging when no morphologically assignable parts are available. There is a lack of broadly applicable methods for identifying plants in this situation, for example when roots grow in mixture and for decayed or semi-digested plant material. These difficulties have also impeded the progress made in ecological disciplines such as soil- and trophic ecology. Here, a PCR-based approach is presented which allows identifying a variety of plant taxa commonly occurring in Central European agricultural land. Based on the trnT-F cpDNA region, PCR assays were developed to identify two plant families (Poaceae and Apiaceae), the genera Trifolium and Plantago, and nine plant species: Achillea millefolium, Fagopyrum esculentum, Lolium perenne, Lupinus angustifolius, Phaseolus coccineus, Sinapis alba, Taraxacum officinale, Triticum aestivum, and Zea mays. These assays allowed identification of plants based on size-specific amplicons ranging from 116 bp to 381 bp. Their specificity and sensitivity was consistently high, enabling the detection of small amounts of plant DNA, for example, in decaying plant material and in the intestine or faeces of herbivores. To increase the efficacy of identifying plant species from large number of samples, specific primers were combined in multiplex PCRs, allowing screening for multiple species within a single reaction. The molecular assays outlined here will be applicable manifold, such as for root- and leaf litter identification, botanical trace evidence, and the analysis of herbivory.
Highlights
The identification of plants is well established for the majority of species occurring in Europe
We developed group- and species-specific primers to identify two plant families (Poaceae and Apiaceae), the genera Plantago and Trifolium, and nine plant species common in Central European agricultural land: Achillea millefolium, Fagopyrum esculentum, Table 1
The two family-specific primer pairs for Poaceae and Apiaceae are positioned in the intergenic spacer between trnL-E2 and trnF (IS2) and both reverse primers are placed next to the trnF gene
Summary
The identification of plants is well established for the majority of species occurring in Europe. This approach, gets corrupted when no morphologically assignable parts are available [1,2]. Determining the composition of root samples containing multiple species by morphology-based approaches is impossible [3]. Albeit leaf litter and below-ground plant parts are representing an important food source, our knowledge of the dietary choice in soil-living animals is rudimentary [4]. The semi-digested plant tissues, remaining in the intestine or faeces of herbivores, are not identifiable based on morphological characters. Knowing the food sources and dietary preferences of soil animals, is vital, for example to manage soil insect pests
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