Effects of climate change on plant biodiversity

6. Challenges of modeling future impacts

species 0.345

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physiological 0.146

changing 0.143

constantly 0.114

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variable 0.113

predicting 0.110

2017

124155 characters

16 sections

26 paragraphs

13 images

267 internal links

54 external links

6. Challenges of modeling future impacts

species 0.345

plant 0.242

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plants 0.161

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constantly 0.114

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variable 0.113

predicting 0.110

2016

115439 characters

16 sections

25 paragraphs

13 images

265 internal links

46 external links

4. Direct impacts of climate change

species 0.357

plant 0.234

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function 0.158

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predicting 0.113

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Environmental conditions play a key role in defining the function and distribution of plants , in combination with other factors. Changes in long term environmental conditions that can be collectively coined climate change are known to have had enormous impacts on plant diversity patterns in the future and are seen as having significant current impacts. ^[1] It is predicted that climate change will remain one of the major drivers of biodiversity patterns in the future. ^[2] ^[3] ^[4]

2015

118023 characters

17 sections

26 paragraphs

13 images

270 internal links

47 external links

1. Introduction

2. Palaeo context

3. Modern Context

5. Indirect impacts of climate change

6. Higher level changes

7. Challenges of modelling future impacts

species 0.357

plant 0.234

flowering 0.169

plants 0.166

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distribution 0.150

changing 0.148

modelling 0.138

constantly 0.118

physiologically 0.118

pollinated 0.118

synergy 0.118

interactions 0.117

predicting 0.113

physiological 0.113

Environmental conditions play a key role in defining the function and distribution of plants , in combination with other factors. Changes in long term environmental conditions that can be collectively coined climate change are known to have had enormous impacts on plant diversity patterns in the future and are seen as having significant current impacts. ^[1] It is predicted that climate change will remain one of the major drivers of biodiversity patterns in the future. ^[2] ^[3] ^[4]

2014

111005 characters

16 sections

26 paragraphs

13 images

272 internal links

39 external links

species 0.360

plant 0.219

plants 0.176

flowering 0.170

function 0.159

distribution 0.151

changing 0.149

modelling 0.139

constantly 0.119

physiologically 0.119

pollinated 0.119

synergy 0.119

interactions 0.118

predicting 0.114

physiological 0.114

Environmental conditions play a key role in defining the function and distribution of plants , in combination with other factors. Changes in long term environmental conditions that can be collectively coined climate change are known to have had enormous impacts on plant diversity patterns in the future and are seen as having significant current impacts. ^[1] It is predicted that climate change will remain one of the major drivers of biodiversity patterns in the future. ^[2] ^[3] ^[4]

2013

109271 characters

16 sections

26 paragraphs

13 images

268 internal links

39 external links

species 0.355

plant 0.222

plants 0.179

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function 0.162

distribution 0.154

changing 0.151

modelling 0.141

constantly 0.120

physiologically 0.120

pollinated 0.120

synergy 0.120

interactions 0.120

predicting 0.116

physiological 0.116

Environmental conditions play a key role in defining the function and distribution of plants , in combination with other factors. Changes in long term environmental conditions that can be collectively coined climate change are known to have had enormous impacts on plant diversity patterns in the past and are seen as having significant current impacts. ^[1] It is predicted that climate change will remain one of the major drivers of biodiversity patterns in the future. ^[2] ^[3] ^[4]

2012

109161 characters

16 sections

26 paragraphs

13 images

268 internal links

39 external links

species 0.355

plant 0.222

plants 0.179

flowering 0.173

function 0.162

distribution 0.154

changing 0.151

modelling 0.141

constantly 0.120

physiologically 0.120

pollinated 0.120

synergy 0.120

interactions 0.120

predicting 0.116

physiological 0.116

Environmental conditions play a key role in defining the function and distribution of plants , in combination with other factors. Changes in long term environmental conditions that can be collectively coined climate change are known to have had enormous impacts on plant diversity patterns in the past and are seen as having significant current impacts. ^[1] It is predicted that climate change will remain one of the major drivers of biodiversity patterns in the future. ^[2] ^[3] ^[4]

2011

108040 characters

16 sections

26 paragraphs

13 images

258 internal links

39 external links

species 0.355

plant 0.222

plants 0.179

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function 0.162

distribution 0.154

changing 0.151

modelling 0.141

constantly 0.120

physiologically 0.120

pollinated 0.120

synergy 0.120

interactions 0.120

predicting 0.116

physiological 0.116

Environmental conditions play a key role in defining the function and distribution of plants , in combination with other factors. Changes in long term environmental conditions that can be collectively coined climate change are known to have had enormous impacts on plant diversity patterns in the past and are seen as having significant current impacts. ^[1] It is predicted that climate change will remain one of the major drivers of biodiversity patterns in the future. ^[2] ^[3] ^[4]

2010

102352 characters

16 sections

26 paragraphs

11 images

248 internal links

36 external links

species 0.358

plant 0.224

plants 0.180

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function 0.163

distribution 0.155

changing 0.152

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constantly 0.121

physiologically 0.121

pollinated 0.121

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interactions 0.121

predicting 0.117

physiological 0.117

Environmental conditions play a key role in defining the function and distribution of plants , in combination with other factors. Changes in long term environmental conditions that can be collectively coined climate change are known to have had enormous impacts on plant diversity patterns in the past and are seen as having significant current impacts. It is predicted that climate change will remain one of the major drivers of biodiversity patterns in the future. ^[1] ^[2] ^[3]

2009

70260 characters

16 sections

26 paragraphs

8 images

59 internal links

36 external links

species 0.358

plant 0.224

plants 0.180

flowering 0.174

function 0.163

distribution 0.155

changing 0.152

modelling 0.142

constantly 0.121

physiologically 0.121

pollinated 0.121

synergy 0.121

interactions 0.121

predicting 0.117

physiological 0.117

Environmental conditions play a key role in defining the function and distribution of plants , in combination with other factors. Changes in long term environmental conditions that can be collectively coined climate change are known to have had enormous impacts on plant diversity patterns in the past and are seen as having significant current impacts. It is predicted that climate change will remain one of the major drivers of biodiversity patterns in the future ^[1] ^[2] ^[3]

2008

43565 characters

16 sections

26 paragraphs

7 images

47 internal links

6 external links