Your search keyword '"Ramos Aguila, Luis Carlos"' showing total 3 results

1. Acidity of Soil and Water Decreases in Acid-Sensitive Forests of Tropical China

Author

Lie, Zhiyang, Huang, Wenjuan, Zhou, Guoyi, Zhang, Deqiang, Yan, Junhua, Jiang, Jun, Neilson, Roy, Zhou, Shuyidan, Zhang, Wanjun, Ramos Aguila, Luis Carlos, Chu, Guowei, Liu, Shizhong, Meng, Ze, Zhang, Qianmei, and Liu, Juxiu

Abstract

Acid deposition in China has been declining since the 2000s. While this may help mitigate acidification in forest soils and water, little is known about the recovery of soils and water from previous severe acidification in tropical China. Here, we assessed the chemistry of mineral soils, water, and acid gases (SO2and NOx) from three successional forest types in tropical China from 2000 to 2022. Our results showed that soil pH increased synchronously from 3.9 (2000–2015) to 4.2 (2016–2022) across all three forest types, with exchangeable acid initially decreasing and thereafter stabilizing. Surface and ground water pH also gradually increased throughout the monitoring period. Soil pH recovery was stronger in the primary than in the planted forest. However, soil pH recovery lagged behind the increase in rainfall pH by approximately a decade. The recovery of soil pH was likely related to the positive effects of the dissolution of Al/Fe-hydroxysulfate mineral and subsequent sulfur desorption on soil acid-neutralizing capacity, increased soil organic matter, and climate warming, but was likely moderated by increased exchangeable aluminum and potentially proton-producing hydroxysulfate mineral dissolution that caused the lagged soil pH recovery. Surface and ground water pH recovery was attributed to increased water acid-neutralizing capacity. Our study reports the potential for the recovery of acidified soil and water following decreased acid deposition and provides new insights into the functional recovery of acid-sensitive forests.

Published

2023

2. Temperature-Dependent Biological Control Effectiveness of Tamarixia radiata(Hymenoptera: Eulophidea) Under Laboratory Conditions

Author

Ramos Aguila, Luis Carlos, Atlihan, Remzi, Ashraf, Hafiza Javaria, Keppanan, Ravindran, Lei, Lijin, Bamisile, Bamisope Steve, Cerda, Hugo, and Wang, Liande

Abstract

The parasitism rate and host-feeding rate of Tamarixia radiata(Hymenoptera: Eulophidae), an ectoparasitoid of Diaphorina citri(Hemiptera: Liviidae), were evaluated at 20, 27.5, 30, and 35°C, at 70 ± 5% RH, and 14 h of photoperiod. The biological control efficacy of T. radiatawas evaluated by linking the age-stage predation rate with the two-sex life table. The net host-feeding rate (C0) by T. radiatawas 32.05, 54.40, 17.25, and 1.92 nymphs per female parasitoid at 20, 27.5, 30, and 35°C, respectively. The total net nymphs killing rate (Z0) was 103.02, 223.82, 72.95, and 6.60 nymphs per female parasitoid at 20, 27.5, 30, and 35°C, respectively. Noneffective parasitism rate was observed at 35°C because of high mortality at this temperature. Our results indicated that temperature had meaningful effects on parasitism and host-feeding rate parameters in the laboratory, and may affect biological control efficiency of the parasitoid in the field. The highest host-feeding rate and total biological control efficiency of T. radiatawere recorded at 27.5°C. Most importantly, we found that host-feeding activity of the parasitoid is temperature-dependent, and changed across temperature regimes: the host-feeding rate increased as the temperature increased up to 30°C, started to decrease after this temperature and declined to its minimum level at 35°C. This information is valuable for developing biological control and integrated pest management techniques for Asian citrus psyllid management.

Published

2021

3. Temperature-Dependent Demography and Population Projection of Tamarixia radiata(Hymenoptera: Eulophidea) reared on Diaphorina citri(Hemiptera: Liviidae)

Author

Ramos Aguila, Luis Carlos, Hussain, Mubasher, Huang, Wei, Lei, Lijin, Bamisile, Bamisope Steve, Wang, Fangfei, Chi, Hsin, and Wang, Liande

Abstract

Tamarixia radiataWaterson (Hymenoptera: Eulophidea) is the principal natural enemy used for the control of the major citrus pest Diaphorina citriKuwayama (Hemiptera: Liviidae). In this study, we collected the life-history data of T. radiataat four different temperatures (20, 27.5, 30, and 35°C) and analyzed them by using the age-stage, two-sex life table. The longest preadult developmental time (16.53 d) was observed at 20°C, whereas the shortest one was 7.29 d at 35°C. The preadult development rate was well-fitted to a linear equation. The lower threshold temperature (T0) was 7.85°C and the thermal summation (K) was 193.36 degree-day. The highest fecundity (F) was 322.7 eggs per female was at 27.5°C, whereas the lowest one was 10.8 eggs per female at 35°C. The net reproductive rate (R0) were 70.97, 169.42, 55.70, and 3.25 offspring at 20, 27.5, 30, and 35°C, respectively; the intrinsic rate of increase (r) were 0.1401, 0.3167, 0.3517, and 0.1143 d−1, respectively. The highest values of fecundity, net reproductive rate, intrinsic rate of increase, and finite rate of increase were observed at 27.5°C. The relationships among F, R0, Nf, and Nin all treatments were consistent with R0=F×(Nf/N). The age of peak reproductive value was close to the total preoviposition period in all treatments. Population projections based on the age–stage, two-sex life table showed the dynamics of stage structure and its variability. Faster population growth was observed at 27.5 and 30°C.

Published

2020