Language:
English
繁體中文
Help
Login
Back
Switch To:
Labeled
|
MARC Mode
|
ISBD
Tree Seedling Mycorrhizal Type and Functional Traits Interact with Light Availability to Mediate Plant-Soil Feedbacks.
Record Type:
Language materials, manuscript : Monograph/item
Title/Author:
Tree Seedling Mycorrhizal Type and Functional Traits Interact with Light Availability to Mediate Plant-Soil Feedbacks./
Author:
Wood, Katherine Elizabeth Anne.
Description:
1 online resource (189 pages)
Notes:
Source: Dissertations Abstracts International, Volume: 85-06, Section: B.
Contained By:
Dissertations Abstracts International85-06B.
Subject:
Forestry. -
Online resource:
click for full text (PQDT)
ISBN:
9798381158243
Tree Seedling Mycorrhizal Type and Functional Traits Interact with Light Availability to Mediate Plant-Soil Feedbacks.
Wood, Katherine Elizabeth Anne.
Tree Seedling Mycorrhizal Type and Functional Traits Interact with Light Availability to Mediate Plant-Soil Feedbacks.
- 1 online resource (189 pages)
Source: Dissertations Abstracts International, Volume: 85-06, Section: B.
Thesis (Ph.D.)--Michigan State University, 2023.
Includes bibliographical references
The seedling recruitment phase is a major demographic bottleneck and is critical for future forest community dynamics. Plant-soil feedbacks (PSFs) are often considered to be key drivers of seedling recruitment. PSFs are a continuous feedback loop in which adults modify properties of the soil beneath their crown, thereby influencing the ability of seedlings to grow and survive in that soil. Mechanisms underlying the strength and direction of PSFs include soil-borne microbes, seedling functional traits that confer defense against or recovery from microbes, and matching/mismatching of mycorrhizal type between juvenile and adult trees. Additionally, the strength and direction of PSFs may shift with light availability, which can modify both microbial abundance and functional traits. In this dissertation, I investigated the role each of these mechanisms and their interactions on tree seedlings PSFs.In Chapter 2, I investigated how shade tolerance may be shaped by, not only responses to light availability, but also by species' defense and recovery functional traits, soil microbial communities, and interactions of these factors with light availability. I found that shade tolerance may be explained by interactions among soil-borne microbes, seedling functional traits, and light availability, providing a more mechanistic and trait-based explanation of shade tolerance and thus forest community dynamics.In Chapter 3, to determine the extent to which functional traits mediate PSFs via seedling survival, I conducted a field experiment in which I planted seedlings of four temperate tree species across a gradient of light availability and into soil cores collected beneath conspecific (sterilized and live) and heterospecific adults. Results from this chapter indicate that functional trait values in seedlings as young as three weeks vary in response to both soil source and light availability. Furthermore, traits play an important role in mediating effects of local soil sources and light on seedling survivorship, and thus plant traits could play an important role in PSFs.In Chapter 4, to assess the role of mycorrhizal type matching on juvenile trees' defense/recovery trait response and PSFs, I carried out a greenhouse experiment where I grew seedlings of five temperate tree species under soils cultured by adults of the same species and under three light levels. I found that AM seedlings experience lower survival in soils cultured by AM adults and EM seedlings experience higher survival in soils cultured by EM adults. Additionally, as differences in mycorrhizal colonization and defense/recovery traits between conspecific and heterospecific soils decrease, PSFs are effectively neutralized, providing new insights into how mismatching of mycorrhizal type interacts with traits to influence PSFs.In Chapter 5, to investigate the potential trade-offs between PSFsurvival at low light and PSFbiomass at high light availability, I evaluated biomass data from the parallel factorial blocked field (Chapter 3) and greenhouse (Chapter 4) experiments. AM seedlings experienced negative PSFbiomass that shifted to positive with increasing light availability, and EM seedlings always experienced positive PSFbiomass, irrespective of light level. In addition, I found that measuring PSFsurvival may be more important than PSFbiomass when studying species sensitive to soil-borne microbes and that are expected to grow in low light-environments.Together, these results provide a more mechanistic understanding to the factors underlying PSFs. Tree seedling mycorrhizal type and functional traits appear to interact with light availability to mediate PSFs, thereby influencing seedling regeneration dynamics and subsequent forest community dynamics.
Electronic reproduction.
Ann Arbor, Mich. :
ProQuest,
2024
Mode of access: World Wide Web
ISBN: 9798381158243Subjects--Topical Terms:
668651
Forestry.
Subjects--Index Terms:
Arbuscular mycorrhizal fungiIndex Terms--Genre/Form:
554714
Electronic books.
Tree Seedling Mycorrhizal Type and Functional Traits Interact with Light Availability to Mediate Plant-Soil Feedbacks.
LDR
:05279ntm a2200421K 4500
001
1141653
005
20240318062707.5
006
m o d
007
cr mn ---uuuuu
008
250605s2023 xx obm 000 0 eng d
020
$a
9798381158243
035
$a
(MiAaPQ)AAI30813577
035
$a
AAI30813577
040
$a
MiAaPQ
$b
eng
$c
MiAaPQ
$d
NTU
100
1
$a
Wood, Katherine Elizabeth Anne.
$3
1465567
245
1 0
$a
Tree Seedling Mycorrhizal Type and Functional Traits Interact with Light Availability to Mediate Plant-Soil Feedbacks.
264
0
$c
2023
300
$a
1 online resource (189 pages)
336
$a
text
$b
txt
$2
rdacontent
337
$a
computer
$b
c
$2
rdamedia
338
$a
online resource
$b
cr
$2
rdacarrier
500
$a
Source: Dissertations Abstracts International, Volume: 85-06, Section: B.
500
$a
Advisor: Kobe, Richard;McCarthy-Neumann, Sarah.
502
$a
Thesis (Ph.D.)--Michigan State University, 2023.
504
$a
Includes bibliographical references
520
$a
The seedling recruitment phase is a major demographic bottleneck and is critical for future forest community dynamics. Plant-soil feedbacks (PSFs) are often considered to be key drivers of seedling recruitment. PSFs are a continuous feedback loop in which adults modify properties of the soil beneath their crown, thereby influencing the ability of seedlings to grow and survive in that soil. Mechanisms underlying the strength and direction of PSFs include soil-borne microbes, seedling functional traits that confer defense against or recovery from microbes, and matching/mismatching of mycorrhizal type between juvenile and adult trees. Additionally, the strength and direction of PSFs may shift with light availability, which can modify both microbial abundance and functional traits. In this dissertation, I investigated the role each of these mechanisms and their interactions on tree seedlings PSFs.In Chapter 2, I investigated how shade tolerance may be shaped by, not only responses to light availability, but also by species' defense and recovery functional traits, soil microbial communities, and interactions of these factors with light availability. I found that shade tolerance may be explained by interactions among soil-borne microbes, seedling functional traits, and light availability, providing a more mechanistic and trait-based explanation of shade tolerance and thus forest community dynamics.In Chapter 3, to determine the extent to which functional traits mediate PSFs via seedling survival, I conducted a field experiment in which I planted seedlings of four temperate tree species across a gradient of light availability and into soil cores collected beneath conspecific (sterilized and live) and heterospecific adults. Results from this chapter indicate that functional trait values in seedlings as young as three weeks vary in response to both soil source and light availability. Furthermore, traits play an important role in mediating effects of local soil sources and light on seedling survivorship, and thus plant traits could play an important role in PSFs.In Chapter 4, to assess the role of mycorrhizal type matching on juvenile trees' defense/recovery trait response and PSFs, I carried out a greenhouse experiment where I grew seedlings of five temperate tree species under soils cultured by adults of the same species and under three light levels. I found that AM seedlings experience lower survival in soils cultured by AM adults and EM seedlings experience higher survival in soils cultured by EM adults. Additionally, as differences in mycorrhizal colonization and defense/recovery traits between conspecific and heterospecific soils decrease, PSFs are effectively neutralized, providing new insights into how mismatching of mycorrhizal type interacts with traits to influence PSFs.In Chapter 5, to investigate the potential trade-offs between PSFsurvival at low light and PSFbiomass at high light availability, I evaluated biomass data from the parallel factorial blocked field (Chapter 3) and greenhouse (Chapter 4) experiments. AM seedlings experienced negative PSFbiomass that shifted to positive with increasing light availability, and EM seedlings always experienced positive PSFbiomass, irrespective of light level. In addition, I found that measuring PSFsurvival may be more important than PSFbiomass when studying species sensitive to soil-borne microbes and that are expected to grow in low light-environments.Together, these results provide a more mechanistic understanding to the factors underlying PSFs. Tree seedling mycorrhizal type and functional traits appear to interact with light availability to mediate PSFs, thereby influencing seedling regeneration dynamics and subsequent forest community dynamics.
533
$a
Electronic reproduction.
$b
Ann Arbor, Mich. :
$c
ProQuest,
$d
2024
538
$a
Mode of access: World Wide Web
650
4
$a
Forestry.
$3
668651
650
4
$a
Ecology.
$3
575279
650
4
$a
Microbiology.
$3
591510
650
4
$a
Soil sciences.
$3
1179645
653
$a
Arbuscular mycorrhizal fungi
653
$a
Ectomycorrhizal fungi
653
$a
Forest ecology
653
$a
Functional traits
653
$a
Light availability
653
$a
Plant-soil feedback
655
7
$a
Electronic books.
$2
local
$3
554714
690
$a
0478
690
$a
0329
690
$a
0410
690
$a
0481
710
2
$a
ProQuest Information and Learning Co.
$3
1178819
710
2
$a
Michigan State University.
$b
Forestry - Doctor of Philosophy.
$3
1465568
773
0
$t
Dissertations Abstracts International
$g
85-06B.
856
4 0
$u
http://pqdd.sinica.edu.tw/twdaoapp/servlet/advanced?query=30813577
$z
click for full text (PQDT)
based on 0 review(s)
Multimedia
Reviews
Add a review
and share your thoughts with other readers
Export
pickup library
Processing
...
Change password
Login
Please sign in
User name
Password
Remember me on this computer
Cancel
Forgot your password?