«Previous Article|Table of Contents|Next Article»

《北方园艺》[ISSN:1001-0009/CN:23-1247/S]

Issue:

2012年07期

Page:

9-12

Research Field:

Publishing date:

Info

Title:

Light Interception Measurement of Apple Trees Trained to Tall Spindle Shape Based on Three-dimensional Digitizer

Author(s):

ZHANG Lan-fen¹; LI Bing-zhi²; ZHANG She-qi¹; ZHANG Lin-sen²; WANG Fei¹

1.College of Science，Northwest Agriculture and Forestry University，Yangling，Shaanxi 712100；2.College of Horticulture，Northwest Agriculture and Forestry University，Yangling，Shaanxi 712100

Keywords:

3-D digitizing; tall spindle shape; visual tree; light interception

PACS:

S 661.1

DOI:

-

Abstract:

Three-dimensional digitizer associated with software Piaf Digit and Vege STAR was used to reconstruct digitizing models of the 13-year-old apple trees trained to tall spindle shape，partition the model into cubes and analyzed the light interception of whole canopy and each types of shoots in canopy.The results showed that light interception (STAR) varied by the types of shoots.STAR values of short bourse shoots，short vegetative shoots，long bourse shoots and long vegetative shoots of large size trees were smaller than middle trees respectively，which were smaller than that of small trees.STAR values of short bourse shoots and short vegetative shoots of each trees were smaller than that of long bourse shoots and long vegetative shoots.The light interception of unshadowed shoots was larger than shadowed ones.Decreasing STAR of short bourse shoots and short vegetative shoots by shadowing of other types of shoots were larger than that of long bourse shoots and long vegetative shoots.STAR values of fruit trees increased by the height of ones and from inner to peripheral canopy，which fit the increasing trends of light transmittance measured by light quantum probes (LS190).The yield of fruit trees increased with STAR.Therefore，the light interception of canopy could be used to valuate the light distribution，guide the management of fruit trees，and improve the yield.

References:

[1]Ross J K.The radiation regime and the architecture of plant stands[M].The Hague：Junk W.Pubs.,1981.
[2]马韫韬,郭焱,李保国.应用三维数字化仪对玉米植株叶片方位分布的研究[J].作物学报,2006,32(6):791-798. [3]郑邦友,石利娟,马韫韬，等.水稻冠层的田间原位三维数字化及虚拟层切法研究[J].中国农业科学,2009，42(4):1181-1189.
[4]Farque L，Sinoquet H，Colin F.Canopy structure and light interception in Quercus petraea seedlings in relation to light regime and plant density [J].Tree Physiology,2001,21:1257-1267.
[5]Giuliani R，Magnanini E，Fragassa C，et al.Ground monitoring the light-shadow windows of a tree canopy to yield canopy light interception and morphological traits [J].Plant Cell and Environment,2000,23:783-796.
[6]Pearcy R W，Wang W M.A three-dimensional crown architecture model for assessment of light capture and carbon gain by understory plants [J].Oecologia,1996,108:1-12.
[7]Sinoquet H，Rivet P.Measurement and visualisation of the architecture of an adult tree based on a three-dimensional digitizing device [J].Trees，1997,11:265-270.
[8]Sonohat G，Sinoquet H，Kulandaivelu V，et al.Three-dimensional reconstruction of partially 3D digitised peach tree canopies [J].Tree Physiology，2006,26：337-351.
[9]Willaume M，Lauri P E，Sinoquet H.Light interception in apple trees influenced by canopy architecture manipulation [J].Trees,2004,18:705-713.
[10]Donès N，Adam B，Sinoquet H.Piaf Digit-software to drive a Polhemus Fastrak 3 SPACE 3D digitiser and for the acquisition of plant architecture[M].UMR PIAF INRA-UBP，Clermont-Ferrand,2006:15.
[11]Adam B，Donès N，Sinoquet H.VegeSTAR-software to compute light interception and canopy photosynthesis from images of 3D digitized plants[M].UMR PIAF INRA-UBP，Clermont-Ferrand，France,2002.
[12]Aboala J R，Arévalob J R，Fernández .Allometric relationships of different tree species and stand above ground biomass in the Gomera laurel forest(Canary Islands) [J].Flora,2005,200:264-274.
[13]Casella E，Sinoquet H.A method for describing the canopy architecture of coppice poplar with allometric relationships [J].Tree Physiology，2003,23:1153-1170.
[14]Michael S，Watta，Miko U F.Kirschbaumb.Moving beyond simple linear allometric relationships between tree height and diameter [J].Ecological Modelling,2011,222:3910-3916.
[15]Carter G A，Smith W K.Influence of shoot structure on light interception and photosynthesis in conifers [J].Plant Physiology,1985,79:1038-1043.
[16]Oker-Blom P，Smolander H.The ratio of shoot silhouette area to total needle area in scots pine [J].Forest Science,1988,34:894-906.

Memo

Memo:

-

Common functions

Last Update: 2014-09-03