Theories on migration and history of the North-Atlantic flora: a review in the North Atlantic regions, may be examples of such long-distance dispersal from Siberia. Moreover, it has been suggested that parts of northern Norway and east Greenland, where extremely disjunct Eurasi- atic vascular plants occur, are linked to coastal areas favourable for accumulation of drift ice and driftwood from Siberia during an initial immigration following the last glaciation (Johansen and Hytteborn, 2001). NEW TECHNIQUES – THE DEBATE CONTINUES Much research has been conducted in the last decade to try to resolve the question of plant migration and history of arctic and alpine plant species. By using molecular methods as well as results from e.g. pollen analyses and statistical models for species richness pattern the debate on the plant migration and the ori- gin of the flora in the North Atlantic region has been revived. Through molecular techniques, it is now possi- ble to examine genetic similarities between different populations of species and compare them to their ge- ographic distances (Brochmann and Steen, 1999). Bi- ologists have been debating the genetic consequences of survival of isolated plant populations in glacial refugia. Many predict that higher levels of diver- sity should characterize refugial populations relative to their descendant populations (e.g. Gabrielsen et al., 1997; Comes and Kadereit, 1998). Others assume a massive loss of allelic variability in refugial popula- tions through inbreeding, founder events and popu- lation bottlenecks, especially in small refugial areas and populations (Füchter et al., 2001). Even though small and inbred plant populations often show a very small amount of genetic diversity within populations, the genetic distance between different populations is most often large (Nordal et al., 1998). Tabula Rasa Statistical analyses of diversity patterns in the Norwe- gian mountain flora indicate that contemporary distri- bution patterns can be explained by climate, geology and topography without recourse to historical vari- ables. The glacial survival theory thus seems to be redundant (Birks 1993, 1996). RAPD phylogeography has been used to study variation in two arctic/alpine species in Svalbard. Both were interpreted in support of the tabula rasa theory (Gabrielsen et al., 1997; Tollefsrud et al., 1998). The results indicate that Svalbard popula- tions of Saxifraga caespitosa and S. oppositifolia are closely related to Norwegian mainland populations. This close relationship cannot be explained with- out recent long-distance dispersal across the Barents Sea barrier and it is most likely that this dispersal occurred after the last glaciation (Gabrielsen et al., 1997; Tollefsrud et al., 1998). Abbot et al., (1995) detected 5 different Cp- haplotypes in a population of S. oppositifolia in Sval- bard, and interpreted this as an indication of possible survival in high arctic refugia during the last glacia- tion. A more recent study challenges these conclu- sions as only two Cp-DNA haplotypes were found in S. oppositifolia in Svalbard. This result supports the proposal that there is no molecular evidence for local survival of S. oppositifolia within Svalbard or Norway during the last full-glacial period (Abbott et al., 2000). Glacial Survival Pollen records from Iceland have been interpreted in support of the glacial survival theory (Rundgren and Ingólfsson 1999). Pollen records from Lake Torfadalsvatn, N-Iceland spanning 11,300–9,000 BP show that many of the taxa present prior to the Younger Dryas stadial (11,000–10,000 BP) continued to produce pollen during that cold event. Rundgren and Ingólfsson (1999) interpreted this as evidence for glacial survival, e.g. that many plant species with high tolerance for climate fluctuations probably survived the whole Weichselian in Iceland, and cite a high plant diversity in arctic areas and present-day nunataks in Iceland and Greenland as further support for their the- sis. Some recent molecular research also favours glacial survival at high latitudes. Using isozyme analyses, Odasz et al. (1991) measured genetic dis- tances between geographically isolated populations of Pedicularis dasyantha in Spitsbergen, Svalbard. They found significant variation in allele frequencies and interpreted the pattern of variation, and the evolu- tion of self-compatability in an otherwise mostly self- JÖKULL No. 54 9

Qupperneq 1
Qupperneq 2
Qupperneq 3
Qupperneq 4
Qupperneq 5
Qupperneq 6
Qupperneq 7
Qupperneq 8
Qupperneq 9
Qupperneq 10
Qupperneq 11
Qupperneq 12
Qupperneq 13
Qupperneq 14
Qupperneq 15
Qupperneq 16
Qupperneq 17
Qupperneq 18
Qupperneq 19
Qupperneq 20
Qupperneq 21
Qupperneq 22
Qupperneq 23
Qupperneq 24
Qupperneq 25
Qupperneq 26
Qupperneq 27
Qupperneq 28
Qupperneq 29
Qupperneq 30
Qupperneq 31
Qupperneq 32
Qupperneq 33
Qupperneq 34
Qupperneq 35
Qupperneq 36
Qupperneq 37
Qupperneq 38
Qupperneq 39
Qupperneq 40
Qupperneq 41
Qupperneq 42
Qupperneq 43
Qupperneq 44
Qupperneq 45
Qupperneq 46
Qupperneq 47
Qupperneq 48
Qupperneq 49
Qupperneq 50
Qupperneq 51
Qupperneq 52
Qupperneq 53
Qupperneq 54
Qupperneq 55
Qupperneq 56
Qupperneq 57
Qupperneq 58
Qupperneq 59
Qupperneq 60
Qupperneq 61
Qupperneq 62
Qupperneq 63
Qupperneq 64
Qupperneq 65
Qupperneq 66
Qupperneq 67
Qupperneq 68
Qupperneq 69
Qupperneq 70
Qupperneq 71
Qupperneq 72
Qupperneq 73
Qupperneq 74
Qupperneq 75
Qupperneq 76
Qupperneq 77
Qupperneq 78
Qupperneq 79
Qupperneq 80
Qupperneq 81
Qupperneq 82
Qupperneq 83
Qupperneq 84
Qupperneq 85
Qupperneq 86
Qupperneq 87
Qupperneq 88
Qupperneq 89
Qupperneq 90
Qupperneq 91
Qupperneq 92
Qupperneq 93
Qupperneq 94
Qupperneq 95
Qupperneq 96
Qupperneq 97
Qupperneq 98
Qupperneq 99
Qupperneq 100
Qupperneq 101
Qupperneq 102
Qupperneq 103
Qupperneq 104
Qupperneq 105
Qupperneq 106
Qupperneq 107
Qupperneq 108
Qupperneq 109
Qupperneq 110
Qupperneq 111
Qupperneq 112
Qupperneq 113
Qupperneq 114
Qupperneq 115
Qupperneq 116
Qupperneq 117
Qupperneq 118
Qupperneq 119
Qupperneq 120
Qupperneq 121
Qupperneq 122
Qupperneq 123
Qupperneq 124
Qupperneq 125
Qupperneq 126
Qupperneq 127
Qupperneq 128
Qupperneq 129
Qupperneq 130
Qupperneq 131
Qupperneq 132
Qupperneq 133
Qupperneq 134
Qupperneq 135
Qupperneq 136
Qupperneq 137
Qupperneq 138
Qupperneq 139
Qupperneq 140
Qupperneq 141
Qupperneq 142
Qupperneq 143
Qupperneq 144