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<!DOCTYPE html>
<html lang="en">
<head>
<meta charset="utf-8" />
<title>A1</title>
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<link
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<div
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background-position: center;
background-size: cover;
height: 50%;
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<div style="text-align: center">
<h1 style="font-size: 3rem">Proposed Research Project</h1>
<div>The Bird Diversity Between Tree Species in Hong Kong</div>
<div>UCLAN ID: G21260508</div>
<div>Email: MLEE1414@student.myersough.ac.uk</div>
</div>
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<div
style="
display: flex;
flex-direction: row;
justify-content: space-between;
margin: 10mm 10mm;
height: 280mm;
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>
<div class="intro_and_meth">
<div class="cell">
<div class="title">Introduction :</div>
<div class="content">
This study focus on the bird diversity between tree species in
Hong Kong. Stagoll et al. (2012) mentioned that old trees can be
greater quantity of eatable food sources for different type of
organisms. Furthermore, according Barth et al. (2015),
established trees can attract more birds than young tree because
it can generate more fruits and generate tree hollows. This
paper is to investigate i) the necessary and advantages on
implementing a holistic green planning including to introduce
more tree species which could easily accommodate different kind
of bird and the possibility of alternative proposal in urban
greenery, ii) to study whether bird species are correlated with
the species and iii) current situation of tree species and bird
species in Hong Kong and assessing the opportunities and the
barrier on implementation at present.
</div>
</div>
<div class="cell">
<div class="title">Methodology:</div>
<div class="content">
The study will be based on a systemic search and categorizing of
relevant literature review on ScienceDirect databases (January
2014 January 2024) to extract original research paper
examining bird diversity between tree species , relevant
literatures published between March 2014 to March 2024 only with
English language. Papers will includes the data collection and
analysis. Conference proceedings and papers difficult to locate
were exclude. Evidence for showing importance on linkage of
local, district and regional green forestry with bird diversity
are summaries in general. For the species of trees, Old Value
Trees and non Old Values Trees in Hong Kong will be selected for
flied work. Information will be analysis by the statistical
method, describing data using descriptive statistics ( e.g.
graphical presentation) For the tool collecting tree bird data,
the range finder app and binoculars will be used as estimate the
tree height and use to count the far objects.
</div>
</div>
</div>
<div style="min-width: 50%">
<div style="min-width: 50%; height: 300px; overflow-y: hidden">
<table>
<tr>
<td>No.</td>
<td>Title</td>
<td>Author</td>
<td>Year of publication</td>
<td>
Study location (city, state, country, continents and
climatic zones)
</td>
</tr>
<tr>
<td>1</td>
<td>
Single dead trees matter: Small-scale canopy gaps increase
the species richness, diversity and abundance of birds
breeding in a temperate deciduous forest
</td>
<td>Pawe Lewandowski, Fabian Przepióra</td>
<td>2021</td>
<td>Carpathians (SE Poland)</td>
</tr>
<tr>
<td>2</td>
<td>
How do edge effect and tree species diversity change bird
diversity and avian nest survival in Germanys largest
deciduous forest?
</td>
<td>Péter Batáry, Stefanie Fronczek</td>
<td>2014</td>
<td>Hainich National Park, Germany.</td>
</tr>
<tr>
<td>3</td>
<td>
Relating forest structural characteristics to bat and bird
diversity in the Italian Alps
</td>
<td>Francesca Rigo, Chiara Paniccia</td>
<td>2024</td>
<td>Italy</td>
</tr>
<tr>
<td>4</td>
<td>
Shelterwood harvests promote high breeding bird diversity
and shrubland species for less than 10 years in hardwood
forests
</td>
<td>
Cathryn H. Greenberg , Maria Whitehead , J. Drew Lanham
</td>
<td>2023</td>
<td>North Carolina, USA.</td>
</tr>
<tr>
<td>5</td>
<td>
Large trees as a key factor for bird diversity in
spruce-dominated production forests: Implications for
conservation management
</td>
<td>Dominik Kebrle , Petr Zasadil , Jan Hošek</td>
<td>2021</td>
<td>Czech Republic (CR)</td>
</tr>
<tr>
<td>6</td>
<td>
Evergreen ivy vines as a key element maintaining the high
diversity of birds wintering in Central European forests
</td>
<td>Łukasz Kajtoch a, Emilia Grzędzicka</td>
<td>2023</td>
<td>Southern Poland and central Slovakia</td>
</tr>
<tr>
<td>7</td>
<td>
Key structural factors and their thresholds for promoting
bird diversity in spruce-dominated production forests of
central Europe
</td>
<td>Dominik Kebrle , Jeňýk Hofmeister</td>
<td>2023</td>
<td>Czech Republic</td>
</tr>
<tr>
<td>8</td>
<td>
Breeding bird abundance and species diversity greatest in
high-severity wildfire patches in central hardwood forests
</td>
<td>Cathryn H. Greenberg , Christopher E. Moorman</td>
<td>2014</td>
<td>Western North Carolina, USA</td>
</tr>
<tr>
<td>9</td>
<td>
Bird taxonomic and functional diversity, group- and
species-level effects on a gradient of weevil-caused damage
in eucalypt plantations
</td>
<td>Ricardo S. Ceia , Nuno Faria</td>
<td>2018</td>
<td>Central Portugal:</td>
</tr>
<tr>
<td>10</td>
<td>
Genetic diversity of an invasive tree across time and
contrasting landscape conditions
</td>
<td>Natalia Aguirre-Acosta</td>
<td>2016</td>
<td>China and Korea</td>
</tr>
<tr>
<td>11</td>
<td>
Site and landscape scale drivers of bird and insect
diversity in Native and novel forest ecosystems of Central
Portugal
</td>
<td>Mauro Nereu , Joaquim S. Silva</td>
<td>2015</td>
<td>Coimbra district, Central Portugal</td>
</tr>
<tr>
<td>12</td>
<td>
Even minor logging road development can decrease the
functional diversity of forest bird communities: Evidence
from a biodiversity hotspot
</td>
<td>Nan Wu , Baoshuang Hu , Yao Wang</td>
<td>2023</td>
<td>
Shennongjia World Natural Heritage Site , Hubei Province,
central China
</td>
</tr>
<tr>
<td>13</td>
<td>
Functional diversity of tree cavities for secondary
cavity-nesting birds in logged subtropical Piedmont forests
of the Andes
</td>
<td>Alejandro . Schaaf, Daniela Gomez,</td>
<td>2020</td>
<td>Northwestern Argentina</td>
</tr>
<tr>
<td>14</td>
<td>
Broadleaf retention benefits to bird diversity in
mid-rotation conifer production stands
</td>
<td>Matts Lindbladh , Johan Elmberg , Per-Ola Hedwall</td>
<td>2022</td>
<td>Southern Sweden</td>
</tr>
<tr>
<td>15</td>
<td>
Bark beetle infestation spots as biodiversity hotspots:
Canopy gaps resulting from insect outbreaks enhance the
species richness, diversity and abundance of birds breeding
in coniferous forests
</td>
<td>Fabian Przepióra , Jan Loch ,</td>
<td>2020</td>
<td>Tatra Mts.</td>
</tr>
<tr>
<td>16</td>
<td>
Effects of habitat degradation on bird functional diversity:
A field test in the Valdivian rainforest
</td>
<td>Francisco E. Fontúrbel , Juan F. BetancurtGrisales</td>
<td>2022</td>
<td>South American countries</td>
</tr>
<tr>
<td>17</td>
<td>
Fire and tree species diversity in tropical peat swamp
forests
</td>
<td>Liubov Volkova , Haruni Krisnawati</td>
<td>2023</td>
<td>Indonesia</td>
</tr>
<tr>
<td>18</td>
<td>
Advantages and limitations of tree mixtures in enhancing
avian diversity in commercial timber plantations: Early
insights from southern China
</td>
<td>Demeng Jiang , Xinran Miao</td>
<td>2023</td>
<td>Nanning and Chongzuo municipalities in Guangxi.</td>
</tr>
<tr>
<td>19</td>
<td>
Effects of tree retention and woody biomass removal on bird
and small mammal communities
</td>
<td>Alexis R. Grinde</td>
<td>2020</td>
<td>Northern Minnesota USA,</td>
</tr>
<tr>
<td>20</td>
<td>
Characterising the richness and diversity of forest bird
species using National Forest Inventory data in Germany
</td>
<td>Judith Reise , Florian Kukulka</td>
<td>2019</td>
<td>Forest area of Germany</td>
</tr>
<tr>
<td>21</td>
<td>
Land use diversity and prey availability structure the bird
communities in Norway spruce plantation forests
</td>
<td>Lucie Vélová , Adam Véle</td>
<td>2021</td>
<td>Czech Republic</td>
</tr>
<tr>
<td>22</td>
<td>
Effects of plant species richness on the structure of
plant-bird interaction networks along a 3000-m elevational
gradient in subtropical forests
</td>
<td>Boyu Lei, Yaoyao Tian, Jifa Cui,</td>
<td>2023</td>
<td>Hubei Province, central China</td>
</tr>
<tr>
<td>23</td>
<td>
Non-native tree plantations are weak substitutes for
near-natural forests regarding plant diversity and
ecological value
</td>
<td>Khanh Vu Ho , György Kröel-Dulay</td>
<td>2023</td>
<td>Danube and Tisza in Hungary</td>
</tr>
<tr>
<td>24</td>
<td>
Examining the temporal effects of wildfires on forest birds:
Should I stay or should I go?
</td>
<td>Roger Puig-Gironès, Lluís Brotons</td>
<td>2023</td>
<td>Catalonia</td>
</tr>
<tr>
<td>25</td>
<td>
Short-term experimental support for bird diversity retention
measures during thinning in European boreal forests
</td>
<td>Julian Klein , Matthew Low</td>
<td>2022</td>
<td>Central Sweden</td>
</tr>
<tr>
<td>26</td>
<td>
Seasonal patterns of habitat use of resident birds in
Białowieża Forest and its links to post-disturbance
management
</td>
<td>Rosanne J. Michielsen , Michał Żmihorski</td>
<td>2024</td>
<td>Poland and Belarus</td>
</tr>
<tr>
<td>27</td>
<td>
Shifting tree species composition affects biodiversity of
multiple taxa in Central European forests
</td>
<td>Jan Leidinger , Markus Blaschke</td>
<td>2021</td>
<td>Southern Germany.</td>
</tr>
<tr>
<td>28</td>
<td>
Beyond beaver wetlands: The engineering activities of a
semi-aquatic mammal mediate the species richness and
abundance of terrestrial birds wintering in a temperate
forest
</td>
<td>Izabela Fedyń , Fabian Przepióra</td>
<td>2023</td>
<td>Poland</td>
</tr>
<tr>
<td>29</td>
<td>
Differential effects of forestry plantations on bird
diversity: A global assessment
</td>
<td>Gabriel J. Castaño-Villa</td>
<td>2019</td>
<td>
ISI Web of Science, Scopus, and ScienceDirect databases
(January 2000 December 2017)
</td>
</tr>
<tr>
<td>30</td>
<td>
Microhabitat requirements and occupancy of understorey bird
forest specialists in Southern Mistbelt Forests of
KwaZulu-Natal, South Africa
</td>
<td>Nasiphi Bitani , Craig P. Cordier</td>
<td>2023</td>
<td>South Africa</td>
</tr>
</table>
</div>
<div>
Table 2 : Authors, year, journal and study location of the 30
research paper on examining bird diversity between tree species
extracted in this study
</div>
</div>
</div>
<!-- part1 end -->
<!-- part2 -->
<div
style="
display: flex;
flex-direction: row;
justify-content: space-between;
gap: 3rem;
margin: 10mm 10mm;
"
>
<div
style="
min-width: 50%;
height: 700px;
display: flex;
flex-direction: column;
justify-content: center;
align-items: center;
"
>
<div
style="
width: 100%;
height: 100%;
background-image: url('./img/Picture2.png');
background-size: contain;
background-position: center;
background-repeat: no-repeat;
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></div>
<div>title</div>
</div>
<div class="discuss_and_conclu">
<div style="min-width: 50%">
<div class="title">Discussion and Conclusion</div>
<div class="content">
By using strategic searching, a total of 295 original, peer
reviewed research paper examining bird diversity between tree
species extracted in this study were identified. A wide range of
discipline was discovered, including arboricultural, ecology,
economic, education and urban plantation, only 11 % of the
papers are related to Bird Diversity between Tree species.
Geographic region distribution of the 30 research papers on
examining bird diversity between tree species extracted in this
study as listed in Table 3, including Africa, United States,
Asia, Europe and so on. Compared with Old Value Trees and Non
Old Value Trees Species Composition in Hong Kong, there are some
birds namely: Tree Sparrow, Feral Pigeon, Spotted Dove,
Yellow-crested Cockatoo, Red-whiskered Bulbul, Crested Myna,
Eurasian Magpie, Oriental Magpie Robin, Japanese White-eye,
Black-collared Starling, Large-billed Crow, Asian Koel, Great
tit, Alexandrine Parakeet, Common Tailorbird, Masked
Laughingthrush, Black crowned Night, Heron, Red-billed Blue and
Magpie found in the top 5 common trees namely Ficus macrocarpa,
Cinnamomum camphora, Ceiba pentandra, Ficus virens var.
sublanceolata and Albizia lebbeck. The details is listed in
table 5. However, it is found that the result may cause by
external factors, such as animal disturbance ( e.g. cats and
squirrels, chemical applications). For future studies, it could
focus on some topics, including connecting and collaborating the
multi-levels of urban forestation, expanding the program to
large- scales identification, policy and planning improvements,
seeking strategic solutions and conduct scientific studies to
achieve the bird diversity between tree species.
</div>
</div>
</div>
</div>
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display: flex;
flex-direction: row;
gap: 1rem;
width: 100%;
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margin: 10mm 10mm;
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>
<div
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width: 30%;
height: 700px;
display: flex;
flex-direction: column;
justify-content: center;
align-items: center;
"
>
<div
style="
width: 100%;
height: 100%;
background-image: url('./img/Picture3.png');
background-size: contain;
background-position: center;
background-repeat: no-repeat;
"
></div>
<div>
Table 3 : Geographic region distribution of the 30 research papers
on examining bird diversity between tree species extracted in this
study
</div>
</div>
<div
style="
width: 30%;
display: flex;
flex-direction: column;
justify-content: center;
align-items: center;
"
>
<div
style="
width: 100%;
height: 100%;
background-image: url('./img/Picture4.png');
background-size: contain;
background-position: center;
background-repeat: no-repeat;
"
></div>
<div>
Table 4 : Top 5 Old Value Trees and Non Old Value Trees Species
Composition in Hong Kong
</div>
</div>
<div
style="
width: 30%;
display: flex;
flex-direction: column;
justify-content: center;
align-items: center;
"
>
<div
style="
width: 100%;
height: 100%;
background-image: url('./img/Picture5.png');
background-size: contain;
background-position: center;
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></div>
<div>
Table 5: Bird species found in TOP 5 of Old Value Trees and with
other trees
</div>
</div>
</div>
<!-- part3 end -->
<!-- references -->
<div style="margin: 5mm 10mm">
<div>
<b>References:</b>
<ul>
<li>
Barth James, B., Ian FitzGibbon, S., & Stuart Wilson, R. (2015).
New urban developments that retain more remnant trees have
greater bird diversity
doi:https://doi.org.eproxy.vtclib9.vtc.edu.hk/10.1016/j.landurbplan.2014.11.003
</li>
<li>
Le Roux, D. S., Ikin, K., Lindenmayer, D. B., Manning, A. D., &
Gibbons, P. (2014). The future of large old trees in urban
landscapes. Plos One, 9(6), e99403. Retrieved from
https://doi.org/10.1371/journal.pone.0099403
</li>
<li>
Jim, C.Y., Chan, W.H.,2016. Urban greenspace delivery in Hong
Kong: Spatial-institutional limitations and solution. Urban
Forestry & Urban Greening. 18. 65-85
</li>
<li>
Roy, S., Byrne, J.A., Pickering, C., 2012. A systematic
quantitative review of urban tree benefits, costs, and
assessment methods across cities in different climatic zones.
Urban Forestry & Urban Greening 11, 351-363.
</li>
<li>
Stagoll, K., Lindenmayer, D. B., Knight, E., Fischer, J., &
Manning, A. D. (2012). Large trees are keystone structures in
urban parks. Conservation Letters, 5(2), 115-122.
doi:10.1111/j.1755-263X.2011.00216.x
</li>
<li>
Shmelev, S.E., Shmeleva, I.A., 2009. Sustainable Cities:
problems of integrated interdisciplinary research, International
Journal of Sustainable Development 12, 4-23.
</li>
</ul>
</div>
</div>
<!-- references end -->
<!-- body -->
</div>
</section>
</body>
</html>
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