3D pollination biology using micro-computed tomography and geometric morphometrics in Theobroma cacao

IF 2.7 3区生物学 Q2 PLANT SCIENCES

Applications in Plant Sciences Pub Date : 2023-10-17 DOI:10.1002/aps3.11549

Katherine A. Wolcott, Edward L. Stanley, Osman A. Gutierrez, Stefan Wuchty, Barbara Ann Whitlock

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引用次数: 1

Abstract

Premise

Imaging technologies that capture three-dimensional (3D) variation in floral morphology at micro- and nano-resolutions are increasingly accessible. In herkogamous flowers, such as those of Theobroma cacao, structural barriers between anthers and stigmas represent bottlenecks that restrict pollinator size and access to reproductive organs. To study the unresolved pollination biology of cacao, we present a novel application of micro-computed tomography (micro-CT) using floral dimensions to quantify pollinator functional size limits.

Methods

We generated micro-CT data sets from field-collected flowers and museum specimens of potential pollinators. To compare floral variation, we used 3D Slicer to place landmarks on the surface models and performed a geometric morphometric (GMM) analysis using geomorph R. We identified the petal side door (an opening between the petal hoods and filament) as the main bottleneck for pollinator access. We compared its mean dimensions with proposed pollinators to identify viable candidates.

Results

We identified three levels of likelihood for putative pollinators based on the number of morphological (body) dimensions that fit through the petal side door. We also found floral reward microstructures whose presence and location were previously unclear.

Discussion

Using micro-CT and GMM to study the 3D pollination biology of cacao provides new evidence for predicting unknown pollinators. Incorporating geometry and floral rewards will strengthen plant–pollinator trait matching models for cacao and other species.

Abstract Image

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应用显微计算机断层扫描和几何形态计量学的可可三维授粉生物学

以微米和纳米分辨率捕捉花朵形态三维（3D）变化的前提成像技术越来越容易获得。在两性花中，如可可，花药和柱头之间的结构障碍是限制传粉昆虫大小和进入生殖器官的瓶颈。为了研究尚未解决的可可授粉生物学，我们提出了一种新的应用微型计算机断层扫描（micro-CT），使用花的尺寸来量化传粉昆虫的功能大小限制。方法我们从野外采集的花朵和博物馆的潜在传粉昆虫标本中生成微CT数据集。为了比较花的变异，我们使用3D切片器在表面模型上放置地标，并使用地貌R进行几何形态计量学（GMM）分析。我们确定花瓣侧门（花瓣罩和花丝之间的开口）是传粉昆虫进入的主要瓶颈。我们将其平均维度与建议的传粉昆虫进行了比较，以确定可行的候选者。结果我们根据适合花瓣侧门的形态（身体）尺寸的数量，确定了假定传粉昆虫的三个可能性水平。我们还发现了以前不清楚其存在和位置的花奖励微观结构。探讨利用显微CT和GMM研究可可的三维授粉生物学，为预测未知传粉昆虫提供了新的证据。结合几何形状和花朵奖励将加强可可和其他物种的植物-传粉昆虫特征匹配模型。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Applications in Plant Sciences PLANT SCIENCES-

CiteScore

7.30

自引率

0.00%

发文量

审稿时长

12 weeks

期刊介绍： Applications in Plant Sciences (APPS) is a monthly, peer-reviewed, open access journal promoting the rapid dissemination of newly developed, innovative tools and protocols in all areas of the plant sciences, including genetics, structure, function, development, evolution, systematics, and ecology. Given the rapid progress today in technology and its application in the plant sciences, the goal of APPS is to foster communication within the plant science community to advance scientific research. APPS is a publication of the Botanical Society of America, originating in 2009 as the American Journal of Botany''s online-only section, AJB Primer Notes & Protocols in the Plant Sciences. APPS publishes the following types of articles: (1) Protocol Notes describe new methods and technological advancements; (2) Genomic Resources Articles characterize the development and demonstrate the usefulness of newly developed genomic resources, including transcriptomes; (3) Software Notes detail new software applications; (4) Application Articles illustrate the application of a new protocol, method, or software application within the context of a larger study; (5) Review Articles evaluate available techniques, methods, or protocols; (6) Primer Notes report novel genetic markers with evidence of wide applicability.