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1 l aspects were not observed within these new cryptic species.
2 events preceded secondary sympatry of these cryptic species.
3 e I barcoding has exposed many potential new cryptic species.
4 as enormous potential for assessing rare and cryptic species.
5 ophila suzukii, is a complex of at least two cryptic species.
6 a decipiens complex consists of at least six cryptic species.
7 pulation-level structure or the evolution of cryptic species.
8 p lineages of T. submersa that may represent cryptic species.
9 uld be interpreted as indicative of multiple cryptic species.
10 andscape and is probably differentiated into cryptic species.
11 e in freshwater streams and contains several cryptic species.
12 8.3% showed evidence of being cryptic species.
13 species" is a long-standing confusion of two cryptic species.
14 ies variability and the potential for new or cryptic species.
15 rphospecies C. uncinata consists of multiple cryptic species.
16 de first clues to the existence of yet other cryptic species.
17 tute two distinct geographically overlapping cryptic species.
18 odern methods for describing morphologically cryptic species.
19 nurans has both toxic/colorful and palatable/cryptic species.
20 lineages in North America that may represent cryptic species.
21 isons are needed to formalize these putative cryptic species.
22 owever, is often incomplete, particularly in cryptic species.
23 ies and that of the molecular sibling, often cryptic species.
24 enus may contain additional, morphologically cryptic species.
25 s indicate that P. parvum comprises multiple cryptic species.
26 e revealed an unforeseen hidden diversity of cryptic species among microscopic marine benthos, otherw
27 m Placozoa is harboring an unknown number of cryptic species and has become a challenge for modern sy
28 tical role of integrative taxonomy to detect cryptic species and identify potential biological invasi
30 oform L, and morphoform 'a' contain possible cryptic species; and suggested that cytoform B is in the
31 The 37 currently recognized Bemisia tabaci cryptic species are economically important species and c
32 the wild, but we did not find evidence that cryptic species are less likely to be attacked while at
35 phism can influence the evolutionary fate of cryptic species because it increases populations' chance
37 da glabrata isolates for the presence of the cryptic species Candida nivariensis and Candida bracaren
39 hylogenetic history of the Anopheles gambiae cryptic species complex have yielded strongly conflictin
40 ture: on one hand, they can be considered a 'cryptic' species complex due to their overall similarity
41 tematics in the discovery and delineation of cryptic species complexes, as well as providing new pers
42 present study, show the unsuitability of a 'cryptic' species concept because the degree of crypticit
43 indicate each lineage represents a distinct (cryptic) species, contradicting current morphospecies de
45 of this finding, we have to know in how far cryptic species differ in various aspects of their biolo
49 elling evidence for the existence of a third cryptic species during the speciation event and the abru
52 s been further complicated because two other cryptic species from North China that were previously co
53 ion between overall microbial diversity with cryptic species, further indicate that the secondary end
54 hic heteronomy in the family Myrmecolacidae, cryptic species, genomics, immune response, and behavior
55 nd spread of aposematic traits in previously cryptic species has been the focus of much empirical and
56 ic species of Bemisia tabaci, known as the B cryptic species, has severely constrained vegetable prod
62 d by morphological plasticity, occurrence of cryptic species, incomplete lineage sorting or introgres
63 ansformation of exclusively molecular-based 'cryptic' species into morphologically-defined 'pseudocry
64 first time, reports extensive new Anopheles cryptic species involved in the malaria transmission in
65 sive inventory suggests that the presence of cryptic species is a widespread phenomenon and that furt
68 le multiple studies support the existence of cryptic species, no formal taxonomic revision has been c
70 Invasion and establishment of an aggressive cryptic species of Bemisia tabaci, known as the B crypti
72 ollect high-quality data and material from a cryptic species over a very large geographic area and th
74 nce of resource partitioning between the two cryptic species present, but significantly divergent cap
75 lusca) to discuss the general issues of the "cryptic species" problem that has broad biological and i
76 t often morphospecies consist of clusters of cryptic species that can be identified genetically or mo
78 nt sampling efforts are inadequate to detect cryptic species; therefore, expanding sampling may be ne
80 ns attributed to Bd have been reported among cryptic species undergoing direct development away from
81 , three undescribed species and a complex of cryptic species were identified, suggesting allopatric s
82 cies delineation analyses revealed eight new cryptic species, which we herein describe using DNA taxo
83 ss there is high initial occupancy, rare and cryptic species will be particularly challenging when it
84 nous were later demonstrated to be multiple (cryptic) species with a different developmental mode.
86 the phylogenetic analysis reveals potential cryptic species within mainland populations of C. tigris
89 Here, we describe M. decorus: a group of cryptic species within the M. guttatus species complex t
90 This finding suggests the existence of two cryptic species within the present C. intestinalis speci