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1 owth contribute substantially to the loss of biological diversity.
2 ely dispersed archipelagos can be sources of biological diversity.
3 oviding insights about the genetic basis for biological diversity.
4 r understanding of the mechanisms generating biological diversity.
5 anisms comprise the majority of the planet's biological diversity.
6 s demonstrate positive feedbacks that reduce biological diversity.
7 e of the effects of global climate change on biological diversity.
8 lieved to have generated much of the Earth's biological diversity.
9  signaling intermediate and thereby generate biological diversity.
10  ecosystem services and globally significant biological diversity.
11 ve played a pivotal role in the evolution of biological diversity.
12 sts exhibit an extraordinarily high level of biological diversity.
13 equencing can provide a broad perspective on biological diversity.
14 mics and distribution of pests, diseases and biological diversity.
15  that are highly uniform beyond chemical and biological diversity.
16 likely match that of cancer and exceed it in biological diversity.
17 ilience of this service should increase with biological diversity.
18 s responsible for generating and structuring biological diversity.
19 ce with gene flow (DGF) in the generation of biological diversity.
20  forms of natural selection promote adaptive biological diversity.
21 hes that comprise the majority of vertebrate biological diversity.
22 tural selection is the primary force shaping biological diversity.
23 d is a key "regional" process that maintains biological diversity.
24 at are difficult to distinguish from genuine biological diversity.
25 ch variation is a major determinant of human biological diversity.
26 ernative splicing is critical for generating biological diversity.
27 o investigate the causes and consequences of biological diversity.
28 zation is a potent force in the evolution of biological diversity.
29 to identify ecologically meaningful units of biological diversity.
30 acroevolutionary forces converge to generate biological diversity, a thorough understanding of specie
31 rt from the Secretariat of the Convention on Biological Diversity acknowledges that ongoing biodivers
32 el for studying the nature and regulation of biological diversity across all scales of complexity.
33  grass, increases fire frequency and reduces biological diversity across millions of hectares in west
34 ity, under the auspices of the Convention on Biological Diversity, agreed on 20 biodiversity-related
35 underscore the importance of recognizing the biological diversity among melanomas, representing a fir
36  Our findings point to a high regulatory and biological diversity among Myc-target genes.
37 ons described by D. H. Rothman between total biological diversity and a measure of stable carbon isot
38 onal metagenomic selection leverages natural biological diversity and billions of years of evolution
39 ses play a critical role in the evolution of biological diversity and complexity.
40 ng species, especially those from studies of biological diversity and ecosystem functioning, are larg
41 d's biota, with significant consequences for biological diversity and ecosystem processes.
42 ution of ecological specialization generates biological diversity and may lead to speciation.
43                  Species formation generates biological diversity and occurs when traits evolve that
44                    Protein sequences reflect biological diversity and offer an extraordinary variety
45                            The Convention on Biological Diversity and other international and nationa
46                            In some habitats, biological diversity and presence of juvenile stages wer
47 lular processes, host-pathogen interactions, biological diversity and speciation can be explained by
48  countries (signatories to the Convention on Biological Diversity and Sustainable Development Goals),
49 ase then remain constant with an increase in biological diversity and that the number of attractors w
50 versity loss is central to the Convention on Biological Diversity and United Nations Sustainable Deve
51 m 'biodiversity' is a simple contraction of 'biological diversity', and at first sight the concept is
52 he means to characterize a certain aspect of biological diversity, and a fundamental problem of broad
53 and discovery for novel natural products and biological diversity, and marine actinomycetes turn out
54 opical forests are the global cornerstone of biological diversity, and store 55% of the forest carbon
55  reasons for co-occurrence of linguistic and biological diversity are complex and appear to vary amon
56 ce of genome integrity and the generation of biological diversity are important biological processes,
57                     Our understanding of how biological diversity arises is limited, especially in th
58 n and adaptation strategies used to maintain biological diversity as well as contribute to human well
59 esh insights into our broad understanding of biological diversity at refined resolution.
60           Mutation is the ultimate source of biological diversity because it generates the variation
61                                      Loss of biological diversity because of extinction is one of the
62                     We seek to create useful biological diversity by exploiting the modular nature of
63                            Wider sampling of biological diversity can only accelerate progress in add
64             The contemporary distribution of biological diversity cannot be understood without knowle
65                            The Convention on Biological Diversity (CBD) aspires to formal protection
66                Since 2006, the Convention on Biological Diversity (CBD) has driven MPA establishment,
67  defined by the United Nations Convention on Biological Diversity (CBD), address major causes of biod
68 le ways as envisaged under the Convention on Biological Diversity (CBD).
69 ing how and why hybridization contributes to biological diversity currently being investigated were f
70      A striking feature is its extraordinary biological diversity, evident in the wide range of disea
71 ted in unsustainable exploitation of Earth's biological diversity, exacerbated by climate change, oce
72 stitutional diversity may be as important as biological diversity for our long-term survival.
73 the view that the origins of many aspects of biological diversity, from gene-structural embellishment
74 adth of the approach and test sensitivity to biological diversity further, immunosignatures of >1,500
75 se approach to regulation, the Convention on Biological Diversity has become a platform for imposing
76                 However, it now appears that biological diversity has evolved an alternative source.
77                                              Biological diversity has evolved despite the essentially
78                                              Biological diversity has long been quantified using Simp
79                                              Biological diversity has long been used to measure ecolo
80 ising, then, that such a pervasive source of biological diversity has not been integrated into studie
81 variation and inadequate to properly recover biological diversity in a dataset, if sequencing errors
82 io method should generally be robust against biological diversity in a sample population.
83 oevolution examines the temporal patterns of biological diversity in deep time.
84 ulate the effect of spatial heterogeneity on biological diversity in natural environments.
85  explore the co-occurrence of linguistic and biological diversity in regions containing many of the E
86  how MDRs evolved to generate structural and biological diversity in specialized plant metabolism and
87 e reads produced a 35-fold overestimation of biological diversity in the dataset at the 95% similarit
88  guarantee the maintenance of high levels of biological diversity in the future.
89 n Hemispheres potentially impact patterns of biological diversity in the two areas.
90 enogroup, MNV strains exhibited considerable biological diversity in their ability to grow in culture
91 es independent of MYC expression, suggesting biological diversity in this subset of disease.
92   The need for functional redundancy through biological diversity in wastewater treatment plants is a
93 iogeochemical cycling, trophic dynamics, and biological diversity, in the world's lakes, even in lake
94 f community composition when determining how biological diversity influences bulk particle stoichiome
95 l and evolutionary mechanisms that determine biological diversity is a central question in ecology.
96  global warming may be in the tropics, where biological diversity is also greatest.
97                                              Biological diversity is driven mainly by gene duplicatio
98 temporally variable environments to maintain biological diversity is far broader than generally envis
99                                          How biological diversity is generated and maintained is a fu
100 ify cost-efficient priorities for conserving biological diversity is limited by the scarcity of data
101                                    Extensive biological diversity is reflected in substantial ecologi
102                  The origin and expansion of biological diversity is regulated by both developmental
103 specific gene expression that contributes to biological diversity, little is known about the mechanis
104 evolutionary processes maintaining long-term biological diversity may require preservation of the con
105 ormance is the variance in data arising from biological diversity, measurement noise or from other so
106  as water chemistry, hydrogeomorphology, and biological diversity metrics) with functional measures (
107 communities comprise an interwoven matrix of biological diversity modified by physical and chemical v
108            Concomitant with the evolution of biological diversity must have been the evolution of mec
109 te for genome assembly and for analyzing the biological diversity of a sample.
110                               Conserving the biological diversity of bees therefore requires more tha
111 rovide the foundation for the structural and biological diversity of coral-reef ecosystems.
112 ave vastly improved our understanding of the biological diversity of DLBCL and have led to the discov
113                          Here, we review the biological diversity of FIC domain proteins and summariz
114 d indicate how to measure the functional and biological diversity of forests with spectroscopy.
115 criptional programs accounts for much of the biological diversity of human cells and tumours.
116 ts of the genetic systems that determine the biological diversity of life.
117                 To evaluate the chemical and biological diversity of lipids, lipid extraction is usua
118            New techniques for evaluating the biological diversity of naturally occurring microbial as
119 e how genetic analysis may underestimate the biological diversity of noroviruses and provide a molecu
120 ugh there is a great deal of interest in the biological diversity of species and of genes, it is only
121  for the first time a genus-wide view of the biological diversity of the aspergilli and in many, but
122 onal splice variants of RAGE underscores the biological diversity of the RAGE gene and will aid in th
123  analysis in this second study failed due to biological diversity of the samples.
124 g been a paradigm for explaining the extreme biological diversity of tropical forests.
125 unds, which limits the structural (and hence biological) diversity of the library.
126 e bottleneck and once again exploit the rich biological diversity offered by comparative studies.
127 nd how changes in DNA have given rise to the biological diversity on the planet.
128 ity and oceanographic interfaces may enhance biological diversity on this and adjacent seamounts in t
129 pted under the auspices of the Convention on Biological Diversity, provides the basis for taking effe
130 ersion has had a strongly negative effect on biological diversity, reducing the number of plant and a
131                                However, this biological diversity remains poorly supported by biochem
132 gnificant progress towards the Convention on Biological Diversity's Aichi Target on protected areas,
133 cal global policy goals (e.g., Convention on Biological Diversity's Aichi Targets).
134                         If the Convention on Biological Diversity's targets are to be met, it is impo
135                                  Patterns of biological diversity should be interpreted in light of b
136 the most pervasive themes in ecology is that biological diversity stabilizes ecosystem processes and
137                            The Convention on Biological Diversity targets may stimulate major expansi
138  a link between temperature and chemical and biological diversity that was stronger in chronically po
139                One of the strongest rules of biological diversity - the observation that more species
140 lobal targets agreed under the Convention on Biological Diversity, the number of marine protected are
141                     Beyond issues of cryptic biological diversity, the resolution of species identity
142 nsensus for defining the fundamental unit of biological diversity, the species.
143 nciples that predict well-known responses of biological diversity to different factors.
144 leaders committed, through the Convention on Biological Diversity, to achieve a significant reduction
145 l fuel fundamental research on the nature of biological diversity, ultimately providing up-to-date ph
146 ve feedbacks with soil microbes that promote biological diversity, whereas abundant exotic and native
147 tion led to the question of how such loss of biological diversity will alter the functioning of ecosy
148 te and atmospheric changes can rapidly alter biological diversity, with combined effects that, at lea

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