Protection and storage of chlorophyll in overwintering evergreens
about
The photochemical reflectance index provides an optical indicator of spring photosynthetic activation in evergreen conifers.Increased air temperature during simulated autumn conditions does not increase photosynthetic carbon gain but affects the dissipation of excess energy in seedlings of the evergreen conifer Jack pine.Populations of photoinactivated photosystem II reaction centers characterized by chlorophyll a fluorescence lifetime in vivo.Photoprotection in an ecological context: the remarkable complexity of thermal energy dissipation.Photosynthetic acclimation: does the dynamic structure and macro-organisation of photosystem II in higher plant grana membranes regulate light harvesting states?Optimization of light harvesting and photoprotection: molecular mechanisms and physiological consequences.May photoinhibition be a consequence, rather than a cause, of limited plant productivity?Modulation of photosynthetic activity and photoprotection in Haematococcus pluvialis cells during their conversion into haematocysts and back.High-resolution temperature responses of leaf respiration in snow gum (Eucalyptus pauciflora) reveal high-temperature limits to respiratory function.Carotenogenic response in photosynthetic organisms: a colorful story.Lutein epoxide cycle, light harvesting and photoprotection in species of the tropical tree genus Inga.Reflectance and cyclic electron flow as an indicator of drought stress in cotton (Gossypium hirsutum).A mechanism of energy dissipation in cyanobacteriaRecovery kinetics of photochemical efficiency in winter stressed conifers: the effects of growth light environment, extent of the season and species.A major light-harvesting polypeptide of photosystem II functions in thermal dissipation.A mechanistic model for the photosynthesis-light response based on the photosynthetic electron transport of photosystem II in C3 and C4 species.Differential accumulation of Lhcb gene products in thylakoid membranes of Zea mays plants grown under contrasting light and temperature conditions.A mechanism of nonphotochemical energy dissipation, independent from PsbS, revealed by a conformational change in the antenna protein CP26.Daily and seasonal dynamics of remotely sensed photosynthetic efficiency in tree canopies.Diversity of winter photoinhibitory responses: a case study in co-occurring lichens, mosses, herbs and woody plants from subalpine environments.The Plastid Lipocalin LCNP is Required for Sustained Photoprotective Energy Dissipation in Arabidopsis.Winter acclimation of PsbS and related proteins in the evergreen Arctostaphylos uva-ursi as influenced by altitude and light environment.Winter down-regulation of intrinsic photosynthetic capacity coupled with up-regulation of Elip-like proteins and persistent energy dissipation in a subalpine forest.Climate-dependent variations in leaf respiration in a dry-land, low productivity Mediterranean forest: the importance of acclimation in both high-light and shaded habitatsSurface reflectance properties of Antarctic moss and their relationship to plant species, pigment composition and photosynthetic functionLow growth temperature inhibition of photosynthesis in cotyledons of jack pine seedlings (Pinus banksiana) is due to impaired chloroplast developmentMechanistic aspects of the xanthophyll dynamics in higher plant thylakoids
P2860
Q30886968-6612D366-7C2B-4020-ABE2-F5A4BAE99285Q31096249-4028985D-3C12-42A4-8106-62FD044ED211Q33580693-3A81A519-3647-4EA5-A5C2-F9E58B74F9FDQ36582728-3654EF48-57F7-4511-9DCB-D4D8677B1C57Q37101702-93C388ED-4949-4BC6-BF69-E98716066909Q38059489-1AD4FFFC-0E5E-4152-9950-3F30CD20A746Q38108530-95C1E9A5-33FD-4FCD-9980-7EF6071E8B6CQ38941045-9EE1A2E4-9AFB-480B-8A0E-D1EA28191FF1Q39121132-83BF14D4-0B67-4719-9967-BE50E30CC377Q39140809-E9488F57-066C-42AE-B1D6-2F3B986133B9Q39225304-D4035C21-A00B-4CB1-9095-2C2F9D35555AQ39467316-00E1D182-0474-44C5-9439-EE88435257A4Q42144140-3507F9F8-A9D1-42AC-8264-2E3D754E18CAQ43408514-C1B55207-D9D2-4FAB-8AAD-10F2684E44CEQ44097465-98D05C86-08BD-45FE-B290-9E4AB301996EQ44817645-DE106911-EC82-44E6-9E12-B4BC0A7004F7Q45268091-5326DB5C-4792-4B7A-A922-2EE854A7181FQ45304609-3942CE37-FC78-4D55-95DB-D9D3FFF1188EQ46022936-A139D2B5-201B-4364-A43E-69DB88D6C787Q46418258-8C22D7E4-A2F9-4AE6-BEA0-CEAB55716FE9Q49887007-3236FB08-3A0E-42A2-AC08-F28D155C0E2BQ51718601-A113C176-6A02-4BAE-8DB0-934E6802C6B6Q51720799-D53E17A9-5A26-4393-9F63-663103DDC7AAQ56942076-8164F9F3-C940-4667-807D-1F9C6956F496Q57853100-24680144-E1B5-4989-919F-06FF2F24F173Q58062361-6A193A2E-B5FD-4D01-AB66-B51B66B40C61Q58941428-A73A5528-3237-4E2B-8465-3EEF3C2A9C2F
P2860
Protection and storage of chlorophyll in overwintering evergreens
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on September 2000
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Protection and storage of chlorophyll in overwintering evergreens
@en
Protection and storage of chlorophyll in overwintering evergreens.
@nl
type
label
Protection and storage of chlorophyll in overwintering evergreens
@en
Protection and storage of chlorophyll in overwintering evergreens.
@nl
prefLabel
Protection and storage of chlorophyll in overwintering evergreens
@en
Protection and storage of chlorophyll in overwintering evergreens.
@nl
P2860
P356
P1476
Protection and storage of chlorophyll in overwintering evergreens
@en
P2093
P2860
P304
11098-11101
P356
10.1073/PNAS.150237697
P407
P577
2000-09-01T00:00:00Z