ライフサイエンスコーパス: biodiversity conservation

1 ats for biodiversity protection ("area-based biodiversity conservation").

2 years as a complementary strategy to promote biodiversity conservation.

3 le logging practices from the perspective of biodiversity conservation.

4 ations and constitute a pressing problem for biodiversity conservation.

5 ntal assessments on time scales relevant for biodiversity conservation.

6 diversity and has important implications for biodiversity conservation.

7 various mechanisms linking poverty traps and biodiversity conservation.

8 oncept that has become a common argument for biodiversity conservation.

9 tween invasive species management and native biodiversity conservation.

10 al distributions of conventional targets for biodiversity conservation.

11 ght a looming threat to PA effectiveness and biodiversity conservation.

12 nd provides a quantitative tool for studying biodiversity conservation.

13 web persistence, adding another dimension to biodiversity conservation.

14 Our results support the use of corridors in biodiversity conservation.

15 success than regimes designed primarily for biodiversity conservation.

16 stions concerning the theory and practice of biodiversity conservation.

17 maller households pose serious challenges to biodiversity conservation.

18 change remains an important factor in global biodiversity conservation.

19 andscape structure has become a priority for biodiversity conservation.

20 allenges, including carbon sequestration and biodiversity conservation.

21 so revealing challenges in flood control and biodiversity conservation.

22 nvironmental change is a pressing mission in biodiversity conservation.

23 tions, our findings are directly relevant to biodiversity conservation.

24 ng towards win-wins for economic welfare and biodiversity conservation.

25 ill incomplete, hampering basic research and biodiversity conservation.

26 equired to harmonize seafood production with biodiversity conservation.

27 the contribution different land uses make to biodiversity conservation.

28 taining local livelihoods often clashes with biodiversity conservation.

29 ating trade-offs between economic growth and biodiversity conservation.

30 areas and their environmental conditions in biodiversity conservation.

31 l given the massive shortfall in funding for biodiversity conservation.

32 eed to balance sustainable resource use with biodiversity conservation.

33 rovide crucial evidence for informing global biodiversity conservation.

34 ication of genomics to biology, disease, and biodiversity conservation.

35 increase awareness of any impacts on global biodiversity conservation.

36 on is how to reconcile rubber expansion with biodiversity conservation.

37 namics, and guide a future of genome-enabled biodiversity conservation.

38 ital to sustainable recreational fishing and biodiversity conservation.

39 rovide unique insights and opportunities for biodiversity conservation.

40 egies considering climate change and genetic biodiversity conservation.

41 p align the objectives of climate action and biodiversity conservation.

42 pment pathway to balance urban expansion and biodiversity conservation.

43 Protected Areas (PAs) are the cornerstone of biodiversity conservation.

44 Protected areas are essential to biodiversity conservation.

45 restoration, climate change mitigation, and biodiversity conservation.

46 de improved guidance toward a more effective biodiversity conservation.

47 d fields, from medicine and public health to biodiversity conservation.

48 (PCAs) that disproportionately contribute to biodiversity conservation.

49 ivity timing, with emerging applications for biodiversity conservation.

50 ure impacts will fail at achieving effective biodiversity conservation.

51 vanilla crop for sustainable production and biodiversity conservation.

52 n within Protected Areas and its impacts for biodiversity conservation.

53 as to support environmental services such as biodiversity conservation.

54 ic processes can shed light on their role in biodiversity conservation.

55 d animal genetic diversity is fundamental to biodiversity conservation.

56 tral research topic in community ecology and biodiversity conservation.

57 r the maintenance of ecosystem functions and biodiversity conservation.

58 of anthropogenic bottlenecks is crucial for biodiversity conservation.

59 cological and evolutionary perspectives into biodiversity conservation.

60 local communities, is a global priority for biodiversity conservation.

61 re three essential principles for area-based biodiversity conservation.

62 soil productivity, clean air and water, and biodiversity conservation.

63 l horizon scan of issues likely to impact on biodiversity conservation.

64 resent known and novel approaches to promote biodiversity conservation.

65 ity and fragmentation are key challenges for biodiversity conservation.

66 Wildlife tourism plays a crucial role in biodiversity conservation.

67 nflicts and pose a substantial challenge for biodiversity conservation.

68 ests of agricultural production and those of biodiversity conservation.

69 , play a crucial role in fostering effective biodiversity conservation.

70 ons of the environment that typically inform biodiversity conservation.

71 Protected areas are the cornerstone of biodiversity conservation.

72 rt food production, social interactions, and biodiversity conservation.

73 ersity are poorly understood yet critical to biodiversity conservation.

74 planning efforts aimed at maximizing ROI in biodiversity conservation.

75 nd economically valuable, but pose risks for biodiversity conservation.

76 ost species provides rare second chances for biodiversity conservation.

77 lated patches are inordinately important for biodiversity conservation.

78 geographical space and has implications for biodiversity conservation.

79 nown repercussions for local communities and biodiversity conservation.

80 ols to advance these goals for multi-faceted biodiversity conservation.

81 ning protected areas (PAs) are key tools for biodiversity conservation.

82 ing the need for an integrative approach for biodiversity conservation.

83 ed areas are widely considered essential for biodiversity conservation.

84 limits and centered on human well-being and biodiversity conservation.

85 More than US$21 billion is spent annually on biodiversity conservation.

86 stem services have become a key argument for biodiversity conservation.

87 nd a range of opportunities and concerns for biodiversity conservation.

88 y directly but that indirectly might enhance biodiversity conservation.

89 Can economic forces be harnessed for biodiversity conservation?

90 domestic cats Felis catus can be a threat to biodiversity conservation,(1-3) but its mitigation is co

91 financing, plan for climate change and make biodiversity conservation a far stronger part of land, w

92 pecies Act (ESA) of 1973 set a precedent for biodiversity conservation across the globe.(1) A key req

93 cations for fields as divergent as medicine, biodiversity conservation, agriculture and space explora

94 ontributions to People (NCP) that reconciles biodiversity conservation and agricultural production.

95 and will have collateral benefits for global biodiversity conservation and animal welfare.

96 s are a major impediment to effective global biodiversity conservation and are likely associated with

97 a strategy to enhance shoreline protection, biodiversity conservation and carbon sequestration.

98 stal wetlands fulfil important functions for biodiversity conservation and coastal protection, which

99 ability of particular local areas for global biodiversity conservation and comparing those areas with

100 ral habitat islands whose potential roles in biodiversity conservation and ecological functioning has

101 question of whether mangrove replanting aids biodiversity conservation and ecological recovery.

102 ty and selection effects into strategies for biodiversity conservation and ecological restoration.

103 xplorations of several case studies in which biodiversity conservation and economic development coinc

104 lly disrupt ecological processes and imperil biodiversity conservation and ecosystem functioning at L

105 Strategies for biodiversity conservation and ecosystem restoration must

106 nt for the preservation of heirloom strains, biodiversity conservation and ecosystem restoration, and

107 natural grasslands, to maximize benefits for biodiversity conservation and ecosystem service delivery

108 to a single equation that applies equally to biodiversity conservation and ecosystem service objectiv

109 effectively managed to enhance outcomes for biodiversity conservation and ecosystem service provisio

110 se conflicts and identify trade-offs between biodiversity conservation and ecosystem services in a da

111 native forest loss and gain is critical for biodiversity conservation and ecosystem services, especi

112 of Kerala, with significant implications for biodiversity conservation and efforts to control vectors

113 s led to calls for strategies that reconcile biodiversity conservation and fisheries benefits.

114 , primary productivity, soil carbon storage, biodiversity conservation and fishery production (effect

115 roblem while providing greater potential for biodiversity conservation and fishery rebuilding if over

116 ractitioners working across sectors, such as biodiversity conservation and food production in farmlan

117 Myanmar offers unique opportunities for both biodiversity conservation and foreign direct investment

118 This study examines biodiversity conservation and forest-based livelihood ou

119 enforced marine reserve target will benefit biodiversity conservation and higher fisheries productiv

120 t requires the reconciliation of demands for biodiversity conservation and increased agricultural pro

121 Investments in both biodiversity conservation and infrastructure are needed

122 ure, our results have major implications for biodiversity conservation and invasion dynamics in fresh

123 Importantly, biodiversity conservation and management need to be cons

124 s this can have significant implications for biodiversity conservation and microbiome engineering in

125 y distribution and present detailed maps for biodiversity conservation and modeling of global ecologi

126 , providing both decision support for global biodiversity conservation and opportunities for intergov

127 t steps to identify spatial patterns linking biodiversity conservation and pollination service.

128 This paper introduces a special feature on biodiversity conservation and poverty traps.

129 ew the links between poverty alleviation and biodiversity conservation and present a conceptual typol

130 However, the integration of biodiversity conservation and public health has gained s

131 n that directly affects policy decisions for biodiversity conservation and public health.

132 ped CAFC maps aim to facilitate decisions on biodiversity conservation and reforestation programs in

133 es, would create the conditions for stronger biodiversity conservation and research, agricultural dev

134 Conversely, biodiversity conservation and restoration can help achie

135 y projects aimed at reconciling the goals of biodiversity conservation and social aspirations within

136 utcomes in terms of carbon sequestration and biodiversity conservation and social equity, accounting

137 e effectively integrate the related goals of biodiversity conservation and spillover prevention.

138 by wetlands have important implications for biodiversity conservation and stream ecosystem managemen

139 nding of how to achieve behaviour change for biodiversity conservation and suggest how to identify ke

140 Addressing the challenges of biodiversity conservation and sustainable development re

141 ical implications in favor of forage-related biodiversity conservation and sustainable livestock prod

142 e change risks, and identify trade-offs with biodiversity, conservation and land protection prioritie

143 used by just 23% of intervention studies in biodiversity conservation, and 36% of intervention studi

144 ng ecosystems to balance ecosystem services, biodiversity conservation, and carbon sequestration is a

145 ortant implications for ecosystem processes, biodiversity conservation, and ecosystem management.

146 are beginning to transform local fisheries, biodiversity conservation, and marine spatial planning.

147 oss many links should be of great concern in biodiversity conservation, and the potential for 'hubs'

148 ial conflicts between climate mitigation and biodiversity conservation are highlighted, and prioritie

149 We propose that financial resources for biodiversity conservation are substantially increased th

150 So, in biodiversity conservation, are parasites friends or foes

151 Our findings support biodiversity conservation as a key strategy for sustaina

152 rgeted reactive approaches) might outperform biodiversity conservation as a tool for disease control.

153 t management, however, did not contribute to biodiversity conservation as expected.

154 Conceiving restoration and biodiversity conservation as synergistic, mutually reinf

155 y argues for 'whole-ecosystem' approaches to biodiversity conservation, as seemingly insignificant sp

156 If so, biodiversity conservation at the appropriate scales migh

157 Protected areas are crucial for biodiversity conservation because they provide safe have

158 e show how reconnecting landscapes amplifies biodiversity conservation both within and beyond reserve

159 s essential for the use of surrogate taxa in biodiversity conservation, but presence and strength of

160 lobal conversations about carbon removal and biodiversity conservation, but recent research rarely ac

161 xpert agencies from consultation compromises biodiversity conservation, but we identify approaches th

162 creating attractive livelihoods that support biodiversity conservation, but whether tourists prefer t

163 s can improve ecosystem services and enhance biodiversity conservation, but will not match the compos

164 asingly being used in landscape planning for biodiversity conservation by assessing habitat connectiv

165 in-win solutions for poverty alleviation and biodiversity conservation by breaking rural reliance on

166 lagship events have high potential value for biodiversity conservation by engaging people with wildli

167 the antagonistic roles of aesthetic value in biodiversity conservation by using novel metrics of colo

168 Worldwide, enormous potential for biodiversity conservation can be realized by upgrading e

169 forts is an attempt to clarify ways in which biodiversity conservation can help reduce the risk of zo

170 s, and is well suited to address large-scale biodiversity conservation challenges of the twenty-first

171 chieving this 30 x 30 target for terrestrial biodiversity conservation, climate change mitigation, an

172 provides the foundation for applications in biodiversity conservation, climate change, invasion, res

173 eightfold increase in cost-effectiveness for biodiversity conservation compared with a baseline of no

174 and disease risk, prompting suggestions that biodiversity conservation could promote human and wildli

175 ) represent a significant threat globally to biodiversity conservation, driver safety and economic re

176 particular interest for disease ecology and biodiversity conservation due to the high host densities

177 ts on top predators is fundamental to marine biodiversity conservation, due to their increasingly thr

178 iology, community and functional ecology, to biodiversity conservation, ecosystem and landscape manag

179 Whether and how biodiversity conservation, ecosystem service delivery, a

180 ildlife and livestock, with implications for biodiversity conservation, ecosystem services and human

181 ergies between ballot box measures and other biodiversity conservation efforts offer an under-utilise

182 d areas (PAs) are the cornerstones of global biodiversity conservation efforts, but to fulfil this ro

183 ynamics, which are vital to informing global biodiversity conservation efforts.

184 Reducing deforestation underpins global biodiversity conservation efforts.

185 rest fragmentation, and key areas for global biodiversity conservation efforts.

186 to this challenge and are the cornerstone of biodiversity conservation efforts.

187 es may be at risk or where opportunities for biodiversity conservation emerge.

188 ses to habitat fragmentation is critical for biodiversity conservation, especially in tropical forest

189 Sharp trade-offs in global versus regional biodiversity conservation exist for all energy technolog

190 ne fisheries and assess its implications for biodiversity conservation, fishery sustainability, and f

191 We argue that our contemporary approach to biodiversity conservation focuses on spatial scales that

192 ly of vegetation--paramount to C storage and biodiversity conservation--frequently remains unpredicta

193 Climate change, biodiversity conservation, fresh water conservation, eco

194 launches the post-2020 framework for global biodiversity conservation (Global Biodiversity Framework

195 The situation is a lost opportunity for biodiversity conservation globally.

196 could cost-effectively and equitably achieve biodiversity conservation goals but could also trigger u

197 Protected areas are key to meeting biodiversity conservation goals, but direct measures of

198 could help meet competing food security and biodiversity conservation goals.

199 conservation funds are insufficient to meet biodiversity conservation goals.

200 thereby ensuring that ongoing investment in biodiversity conservation goes beyond damage limitation

201 ien pests on agriculture, food security, and biodiversity conservation has been worsened by climate c

202 nvestments, knowledge and accountability for biodiversity conservation have been inadequate to enable

203 etation is still of paramount importance for biodiversity conservation in agricultural landscapes.

204 ecological understanding but can also guide biodiversity conservation in an era of global change.

205 istribution, which can guide our approach to biodiversity conservation in an ever-changing world.

206 bitat management appears to be important for biodiversity conservation in Britain.

207 itigation, with increased bioenergy use, and biodiversity conservation in forests.

208 r, we review some past and present trends in biodiversity conservation in Mexico and explore possible

209 ts to ecosystem function as a motivation for biodiversity conservation in nature.

210 These changes may benefit biodiversity conservation in some ways, but in Africa, w

211 Examples of natural products discovery and biodiversity conservation in Suriname and Madagascar are

212 tifaceted diversity monitoring for effective biodiversity conservation in temperate forests.

213 f range limit theory and its applications to biodiversity conservation in the context of changing cli

214 scan of issues potentially impacting global biodiversity conservation in the next decade.

215 Here we quantify how OECMs contribute to biodiversity conservation in the three high-biodiversity

216 Biodiversity conservation in transformed landscapes is b

217 These include some priority areas for biodiversity conservation in tropical countries (e.g., F

218 examine the most pressing topical issues in biodiversity conservation in urban areas globally.

219 connectivity as a foundational component of biodiversity conservation, including networks of connect

220 ns with the land coverage of three prominent biodiversity conservation initiatives at two scales.

221 he goal of spillover prevention into ongoing biodiversity conservation initiatives.

222 s providing evidence on the effectiveness of biodiversity conservation interventions, compared to 4,4

223 However, the climate co-benefits of biodiversity conservation interventions, such as habitat

224 enting or slowing extinctions and preserving biodiversity, conservation interventions are rarely asse

225 sity as a global public good, that integrate biodiversity conservation into policies and decision fra

226 Biodiversity conservation is a key management priority f

227 d planning of renewable energy expansion and biodiversity conservation is essential to avoid conflict

228 Nevertheless, biodiversity conservation is hindered because how such c

229 Biodiversity conservation is increasingly being recogniz

230 ways to sustainably balance human needs with biodiversity conservation is increasingly challenging, e

231 In Brazil's Atlantic Forest (AF) biodiversity conservation is of key importance since the

232 rained by food security, fiber security, and biodiversity conservation-is 23.8 petagrams of CO2 equiv

233 To protect biodiversity, conservation laws should be evaluated and

234 scales is critical for developing effective biodiversity conservation management and policy.

235 gical monitoring, facilitating well-informed biodiversity conservation, management and decision makin

236 Thus, biodiversity conservation may benefit public health.

237 d increases found for other readily deployed biodiversity conservation methods, like shifting from co

238 include impacts on human health, culture and biodiversity conservation more generally.

239 Instead, priority areas for biodiversity conservation must be based on high-resoluti

240 application of management actions to achieve biodiversity conservation objectives.

241 opment, suggesting that PADDD may compromise biodiversity conservation objectives.

242 In order to contribute to biodiversity conservation of Andean potatoes, informatio

243 Therefore, our findings will help guide biodiversity conservation on a global scale.

244 ation strategy that seeks to optimise either biodiversity conservation or ecosystem services provisio

245 To address this need, biodiversity conservation organizations have proposed ni

246 rbance is considered essential for achieving biodiversity conservation outcomes but is rapidly erodin

247 interventions that support critical NCP and biodiversity conservation outside of protected areas.

248 Our work suggests that biodiversity conservation policies to preserve forest in

249 ing to biodiversity in the Cerrado, a global biodiversity conservation priority and major region for

250 account for the potential trade-offs between biodiversity conservation, productive land uses and ecos

251 Biodiversity conservation projects confront immediate an

252 w technologies in multiple domains including biodiversity conservation, public health, energy product

253 that 35.6% of 75,513 scientific documents on biodiversity conservation published in 2014 were not in

254 to timber production, climate regulation and biodiversity conservation/recreation.

255 Biodiversity conservation requires conserving evolutiona

256 Managing agricultural landscapes to support biodiversity conservation requires profound structural c

257 Biodiversity conservation requires reliable species asse

258 Accordingly, efforts of Tibetan biodiversity conservation should include conclusions fro

259 as and assess their spatial coincidence with biodiversity conservation sites and priorities.

260 About 23-31% of assessed biodiversity conservation sites in Europe coincide with

261 the most irreplaceable category of important biodiversity conservation sites.

262 tests of community theory and contribute to biodiversity conservation strategies aimed at mitigating

263 spectively, which calls for climate-specific biodiversity conservation strategies to mitigate the eff

264 narrow-range species for the formulation of biodiversity conservation strategies, and conservation a

265 to inform effective mitigation planning and biodiversity conservation strategies.

266 Biodiversity conservation studies indicate that mature c

267 easing adoption of net outcome approaches to biodiversity conservation suggests they could become mai

268 Indigenous peoples have forms of biodiversity conservation that could be characterized as

269 nd we identify maximum reserve coverages for biodiversity conservation that do not impair long-term f

270 biodiversity framework and beyond to support biodiversity conservation, the UN Sustainable Developmen

271 Even in the arena of biodiversity conservation, there is growing politicizati

272 Organisations focused on biodiversity conservation therefore need to capitalise o

273 ding of its population-level effects may aid biodiversity conservation through increased regulatory c

274 ty to be measured over time, the targets for biodiversity conservation to be defined and conservation

275 entions should address local development and biodiversity conservation together to achieve more co-be

276 the synergy between carbon sequestration and biodiversity conservation under alternative fund allocat

277 ardship, it may improve the effectiveness of biodiversity conservation under climate change.

278 itats, unmanaged forests are the backbone of biodiversity conservation, underlining the need to safeg

279 e key to strengthening the legal framing for biodiversity conservation, use, and management.

280 In this article, we assess the biodiversity conservation value, and specifically the ir

281 ed reproductive traits have implications for biodiversity conservation, via prediction of which plant

282 ebrate eradications from islands will expand biodiversity conservation while strengthening biodiversi

283 one of the highest returns on investment for biodiversity conservation worldwide.

284 ingly important for carbon sequestration and biodiversity conservation worldwide; yet, we still canno

285 Protected areas form the backbone of biodiversity conservation, yet their effectiveness is of