Regional-scale variation in litter production and seasonality in tropical dry forests of southern Mexico

Highly seasonal rainfall creates a pulse of litterfall in the southern Yucaran peninsula region, with cascading effects oil the timing of essential nutrient fluxes, microbial dynamics, and vegetation growth. I investigated whether forest age or a regional environmental gradient related to rainfall has a greater effect oil patterns of litterfall in this increasingly human-dominated landscape. Litterfall was sampled in 10-13 stands in each of three locations spanning a rainfall gradient of ca 900-1400 mm/yr. Litter was collected monthly from November 1998 through january 2000 in mature forests and in secondary forests aged 2-25 Yr. Despite a substantial precipitation gradient, age was the only, significant predictor of annual litter mass. Two- to five-yr-old forests produced significantly less litter than 12-25-yr-old secondary forests (4.6 vs. 6.2 Mg/ha/yr), but the difference between older secondary forests and mature forests (9 percent) was not significant. Litter production increased with rainfall, bill not significantly so. The pattern of litterfall was similar across locations and age classes, with a peak during late March or early April. However, litterfall seasonality was most pronounced in the old secondary and mature forests. Litterfall was more evenly distributed throughout the year in forests under 10 yr old. Seasonality of litterfall was also less pronounced at the wettest site, with less disparity between peak litterfall and off-peak months. Seasonality was not related to soil texture. Forest age and rainfall are important drivers of litterfall dynamics; however, both litter mass and degree of seasonality depended more strongly on forest age. Thus, the impact of land-use change on litter nutrient cycling is as great, if not greater, than the constraint imposed by the major natural environmental factor affecting tropical dry forests.