Regulation of Meadow Saffron (Colchicum autumnale L.) in non-intensively managed grasslands Linda S. Jung Division of Landscape Ecology and Landscape Planning Justus-Liebig-University Giessen Division of Landscape Ecology and Landscape Planning Justus-Liebig-University Giessen Regulation of Meadow Saffron (Colchicum autumnale L.) in non-intensively managed grasslands Dissertation for the degree of Doctor agriculturae (Dr. agr.) submitted to the Faculty Agricultural Sciences, Nutritional Sciences and Environmental Management at Justus‐Liebig‐University Giessen submitted by Dipl.‐Biol. Linda S. Jung Giessen, June 2014 Dean of Faculty 09: Prof. Dr. Dr. Peter Kämpfer Accepted on the recommendation of Prof. Dr. Dr. Annette Otte, examiner Prof. Dr. Bernd Honermeier, co‐examiner List of publications List of publications The thesis ‘Regulation of Meadow Saffron (Colchicum autumnale L.) in non- intensively managed grasslands’ is based on the following three papers: 1. Jung L.S., Winter S., Eckstein R.L., Kriechbaum M., Karrer G., Welk E., Elsässer M., Donath T.W., Otte A. (2011). Biological flora of Central Europe: Colchicum autumnale L. Perspectives of Plant Ecology, Evolution and Systematics 13: 227- 244. 2. Jung L.S., Eckstein R.L., Otte A. & Donath T.W. (2012). Above- and below-ground nutrient and alkaloid dynamics in Colchicum autumnale: optimal mowing dates for population control or low hay toxicity. Weed Research 52: 348-357. 3. Winter S., Jung L.S., Eckstein R.L., Otte A., Donath T.W. & Kriechbaum M. (2014). Control of the toxic plant Colchicum autumnale in semi-natural grasslands: effects of cutting treatments on demography and diversity. Journal of Applied Ecology 51: 524–533. Author’s contribution: In paper 1, the first two authors contributed equally doing the main literature collection, survey and writing of the paper and incorporated results from own field experiments. The co-author E. Welk generated the distribution map and interpreted it. Other co-authors helped clarifying controversial points and contributed with valuable ideas and suggestions. In paper 2, I did the main field work, data analysis and paper writing. The co-authors initiated the study, planned the design and improved the paper with their criticism and comments. In paper 3, the first two authors contributed equally. They conducted the main part of the field work, data analysis and writing. Co-authors provided the idea and design for the study, helped with field work and data analysis and gave valuable comments to the paper. Paper 1 is reprinted with permission from Elsevier B.V., and papers 2 and 3 are reprinted with permission from John Wiley & Sons, Inc. iii Contents Contents List of Figures v List of Tables vii List of Appendices viii 1. General introduction 1 2. Objectives 4 2.1. Characterization of Colchicum autumnale (chapter 5) 4 2.2. Nutrient and alkaloid dynamics of Colchicum autumnale (chapter 6) 5 2.3. Control of Colchicum autumnale in semi‐natural grasslands (chapter 7) 5 3. Study area 6 4. Methods 9 4.1. Colchicum autumnale sampling and preparation 9 4.2. Nutrient and alkaloid analyses 9 4.3. Management experiments 10 4.4. Transition matrix model and population dynamics 12 4.5. Vegetation data 13 4.6. Statistical analyses 13 5. Biological flora of Central Europe: Colchicum autumnale L. 17 5.1. Taxonomy and morphology 18 5.1.1. Taxonomy 18 5.2. Morphology 19 5.2.3. Axis 19 5.2.4. Roots 19 5.2.5. Leaves 20 5.2.6. Flowers 20 5.2.7. Ovary and seeds 21 5.3. Distribution and habitat requirements 21 5.3.1. Geographical distribution 21 iv Contents 5.3.2. Distribution limits 21 5.3.3. Northward range expansion 23 5.3.4. Habitat 23 5.3.5. Communities 23 5.3.6. Response to abiotic factors 24 5.3.7. Abundance 24 5.4. Life cycle and biology 24 5.4.1. Life cycle 24 5.4.2. Spatial distribution of plants within populations 25 5.4.3. Phenology 26 5.4.4. Reproduction 26 5.4.5. Germination 27 5.4.6. Response to competition and management 28 5.4.7. Herbivores and pathogens 29 5.4.8. Mykorrhiza 29 5.4.9. Physiological data 29 5.4.10. Biochemical data 30 5.4.11. Genetic data 30 5.4.12. Hybrids 30 5.4.13. Status of species 30 5.5. Acknowledgements 31 5.6. References 31 6. Above‐ and below‐ground nutrient and alkaloid dynamics in Colchicum autumnale: optimal mowing dates for population control or low hay toxicity 36 6.1. Introduction 37 6.2. Materials and methods 39 6.2.1. Study sites 39 6.2.2. Plant sampling and preparation 39 6.2.3. Nutrient and alkaloid analyses 40 v Contents 6.2.4. Statistical analyses 40 6.3. Results 41 6.3.1. Differences between biogeographical regions 41 6.3.1.1. Nutrient contents 41 6.3.1.2. Alkaloid content 41 6.4. Discussion 43 6.4.1. Differences between biogeographical regions 43 6.4.2. Management option 1: Reduction in population density of Colchicum autumnale 44 6.4.3. Management option 2: Decreased alkaloid content in Colchicum autumnale 45 6.5. Acknowledgements 45 6.6. References 45 7. Control of the toxic plant Colchicum autumnale in semi‐natural grasslands: effects of cutting treatments on demography and diversity 47 7.1. Introduction 48 7.2. Material and methods 49 7.2.1. Study species 49 7.2.2. Study sites and management design 49 7.2.3. Transition matrix model and populations dynamics 50 7.2.4. Vegetation data 51 7.2.5. Statistical analyses 51 7.3. Results 51 7.3.1. Survival probability 51 7.3.2. Transition to generative plants 51 7.3.3. Population growth rate 51 7.3.4. Life‐table response experiments 52 7.4. Discussion 53 7.4.1. Effects of treatment regimes on Colchicum autumnale 53 vi Contents 7.4.2. Effects of treatment regimes on plant species richness and composition 54 7.4.3. Conclusions 55 7.5. Acknowledgements 55 7.6. References 56 8. General discussion 58 8.1. Characterization of Colchicum autumnale 58 8.2. Differences between biogeographical regions 59 8.3. Implications of nutrient and alkaloid dynamics for Colchicum autumnale management 60 8.4. Effects of cutting regimes on population development of C. autumnale 61 8.5. Effects of treatment regimes on plant species richness and composition 62 8.6. Conclusions 63 9. Summary 66 10. Zusammenfassung 68 11. References 70 12. Acknowledgements 77 13. Appendix 79 vii List of figures List of Figures Chapter 3 Fig. 1: Study area 76 Chapter 5 Fig. 1: Longitudinal section through the base of a flowering Colchicum autumnale plant 19 Fig. 2: Longitudinal‐section through a ripe seed of Colchicum autumnale 21 Fig. 3: The geographical distribution of Colchicum autumnale 22 Fig. 4: Box and whisker plots of the altitudinal distribution of Colchicum autumnale along latitude classes of one degree 22 Fig. 5: Life cycle graph of Colchicum autumnale 25 Fig. 6: Germinating seed of Colchicum autumnale 27 Chapter 6 Fig. 1: Mean daily temperature at 2 cm below soil surface in 2009 39 Fig. 2: Ratios of nitrogen, phosphorus and potassium between aboveground and below‐ground plant parts, and starch content in below‐ground plant parts of Colchicum autumnale 42 Fig. 3: Alkaloid content in above‐ground parts of Colchicum autumnale 42 Fig. 4: Temporal course of mean content of nutrients nitrogen, phosphorus, potassium and alkaloids in above‐ground parts of Colchicum autumnale 43 Fig. 5: Temporal course of mean content of nutrients in storage organs of Colchicum autumnale 44 Fig. 6: Temporal course of mean dry weight in above‐ground parts and storage organs of Colchicum autumnale 44 viii List of figures Chapter 7 Fig. 1: Life stages of Colchicum autumnale 50 Fig. 2: Mean survival probability of Colchicum autumnale under different treatments in Germany and Austria from 2008 – 2011 53 Fig. 3: Mean transition probability to a generative plant of Colchicum autumnale under different treatments for 3 years of transition in Germany and Austria 53 Fig. 4: Mean population growth rates of Colchicum autumnale for three transitions under different treatments in Germany and Austria 54 Fig. 5: Contribution of vital rates to the difference in population growth rate between the control and other treatments in Colchicum autumnale populations of Germany and Austria, as determined by LTRE 55 Appendix Fig. S1: Survival probability of Colchicum autumnale under different treatments 81 Fig. S2: Transition probability to the generative stage of Colchicum autumnale under different treatments 82 ix