Elevated CO<sub>2</sub> induces down-regulation of photosynthesis and alleviates the effect of water deficit in <i>Ceiba pentandra</i> (Malvaceae)

Silveira, Alexandra Maria Ferreira; Marenco, Ricardo Antonio

doi:10.1590/1806-908820230000021

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Scientific Article • Rev. Árvore 47 • 2023 • https://doi.org/10.1590/1806-908820230000021 copy

Elevated CO₂ induces down-regulation of photosynthesis and alleviates the effect of water deficit in Ceiba pentandra (Malvaceae)

O CO₂ elevado induz a regulação negativa da fotossíntese e alivia o efeito do déficit hídrico em Ceiba pentandra (Malvaceae)

Authorship SCIMAGO INSTITUTIONS RANKINGS

ABSTRACT

The simultaneous effect of elevated CO₂ concentration and drought on trees is still under investigation in the Amazon. We evaluated the effect of CO₂ levels (400 and 800 ppm) and water regimes (50% and 100% soil field capacity) on photosynthetic traits, chlorophyll fluorescence, and total biomass accumulation in Ceiba pentandra. In well-watered plants, light-saturated photosynthesis (P_N-sat) increased in plants exposed to elevated CO₂, but both P_N-sat and stomatal conductance decreased in response to water deficit. The maximum carboxylation rate of Rubisco declined under elevated CO₂, which indicates down-regulation of photosynthesis at elevated CO₂. The F_v/F_m ratio was not affected by treatments. Notwithstanding, total plant biomass and leaf area were reduced by 34-37% under water deficit, but they were not affected by CO₂ levels. The P_N-sat values measured in well-irrigated plants at ambient CO₂ were similar to those observed in plants subjected to elevated CO₂ and water deficit (p = 0.26). We concluded that the effect of water deficit on P_N-sat was mitigated by elevated CO₂. These results suggest that the increase of atmospheric CO₂ concentrations associated to climate changes can at least partly offset the negative effect of drought in this multiuse and widely distributed species.

Keywords:
Biomass accumulation; Water use efficiency; Photosynthesis acclimation.

Table 1 Leaf and plant traits of Ceiba pentandra subjected to two CO2 levels (400 and 800 ppm) and two water regimes (soil at 100% and 50% FC). Different uppercase letters and different lowercase letters indicate differences between CO2 levels and water regimes, respectively (Fisher LSD test, p = 0.05, n = 8). Means (± SD) of CO2 levels and water regimes (n = 16) are also shown. Abbreviations: ΨL, leaf water potential; ΨL-6h, ΨL measured at 6 am; ΨL-12h, ΨL measured at 12 noon; Rd, leaf respiration; VPDL, leaf to air vapor pressure difference; Esat, leaf transpiration at light saturation; WUE, water use efficiency; WUEi, intrinsic WUE; Fv/Fm, maximal quantum yield of PSII; ФPSII, effective quantum yield of PSII; NPQ, non-photochemical quenching; LAM, leaf area per mass; RWC, relative water content; TNC, total non-structural carbohydrates; NL, leaf nitrogen; WT, total dry matter; AL, total leaf area. SPAD values (a measure of the relative chlorophyll content); PSII, photosystem II; FC, Field capacity (of soil).

Parameter	400 ppm		800 ppm
	100% FC	50% FC	100% FC	50% FC	400 ppm	800 ppm	100% FC	50%FC
Ψ_L-6h(MPa)	-0.28±0.02	-0.37±0.03	-0.35±0.04	-0.48±0.1	-0.32±0.05A	-0.41±0.1B	-0.31±0.05a	-0.42±0.09b
Ψ_L-12h (MPa)	-0.69±0.1	-0.94±0.15	-0.61±0.07	-0.66±0.05	-0.82±0.18B	-0.64±0.06A	-0.65±0.09a	-0.80±0.18b
R_d(µmol m‒2 s‒1)	0.41±0.04	0.38±0.04	0.43±0.13	0.41±0.11	0.40±0.04A	0.42±0.12A	0.42±0.09a	0.40±0.08a
VPD_L(kPa)	1.31±0.10	1.54±0.09	1.31±0.14	1.44±0.10	1.42±0.15A	1.38±0.14A	1.31±0.12b	1.49±0.10a
E_sat(mmol m‒2 s‒1)	1.21±0.26	0.77±0.06	1.28±0.36	0.83±0.14	0.99±0.29A	1.06±0.35A	1.24±0.30a	0.80±0.11b
WUE (mmol mol-1)	6.2±0.6	6.9±0.4	8.6±2.0	9.7±2.3	6.50±0.6B	9.10±2.2A	7.4±1.9a	8.3±2.2a
WUEi (µmol mol-1)	77.5±15.1	104.7±3.0	110.0±35.2	139.7±34.7	91.1±17.5B	124.8±37.1A	93.7±31.1b	122.2±29.9a
F_v/F_m	0.75±0.02	0.74±0.01	0.74±0.04	0.72±0.03	0.74±0.02A	0.73±0.03A	0.74±0.03a	0.73±0.02a
Φ_PSII	0.54±0.04	0.44±0.07	0.53±0.04	0.47±0.06	0.49±0.07A	0.50±0.06A	0.53±0.04a	0.46±0.07b
NPQ	5.41±0.21	6.84±0.32	4.95±0.24	5.27±0.29	6.13±0.26A	5.11±0.19B	5.18±0.17b	6.05±0.29a
LAM (m² kg^‒1)	24.4±1.1	24.4±1.8	20.8±1.8	20.4±1.3	24.4±1.4A	20.6±1.5B	22.6±2.3a	22.4±2.6a
RWC (%)	88.2±2.6	87.5±2.1	89.2±5.2	82.7±3.6	87.8±2.3A	86.0±5.5A	88.7±4.0a	85.1±3.8b
Sugar (g m^-2)	1.94±0.19	1.58±0.18	2.02±0.42	2.30±0.15	1.76±0.26B	2.16±0.34A	1.98±0.31a	1.94±0.41a
Starch (g m^-2)	6.41±0.38	6.28±0.91	8.53±1.16	8.69±0.81	6.34±0.68B	8.61±0.97A	7.47±1.38a	7.49±1.50a
TNC (g m^-2)	8.3±0.4	7.9±0.9	10.6±1.5	11.0±0.9	8.1±0.7B	10.8±1.2A	9.5±1.5a	9.4±1.8a
N_L(g m^-2)	1.07±0.06	1.10±0.12	1.16±0.17	1.15±0.08	1.09±0.10A	1.15±0.13A	1.12±0.14a	1.13±0.10a
W_T(g per plant)	33.3±3.7	19.3±2.2	29.4±4.2	21.7±5.1	26.3±7.8A	25.5±6.0A	31.3±4.3a	20.5±4.0b
A_L(m² per plant)	0.25±0.05	0.17±0.03	0.24±0.02	0.14±0.04	0.21±0.06A	0.19±0.06A	0.24±0.04a	0.15±0.04b
SPAD values	51.6±2.8	50.9±1.7	49.8±5.9	36.7±6.4	51.3±2.3A	43.3±9.0B	50.7±4.6a	43.8±8.6b

Sociedade de Investigações Florestais Universidade Federal de Viçosa, CEP: 36570-900 - Viçosa - Minas Gerais - Brazil, Tel: (55 31) 3612-3959 - Viçosa - MG - Brazil
E-mail: rarvore@sif.org.br

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Elevated CO2 induces down-regulation of photosynthesis and alleviates the effect of water deficit in Ceiba pentandra (Malvaceae)

O CO2 elevado induz a regulação negativa da fotossíntese e alivia o efeito do déficit hídrico em Ceiba pentandra (Malvaceae)

ABSTRACT

Elevated CO₂ induces down-regulation of photosynthesis and alleviates the effect of water deficit in Ceiba pentandra (Malvaceae)

O CO₂ elevado induz a regulação negativa da fotossíntese e alivia o efeito do déficit hídrico em Ceiba pentandra (Malvaceae)